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4.12.15

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Changes from 4.11.59

Note: this page shows the Feature-Based Change Log for a release

Complete Features

These features were completed when this image was assembled

1. Proposed title of this feature request
Add runbook_url to alerts in the OCP UI

2. What is the nature and description of the request?
If an alert includes a runbook_url label, then it should appear in the UI for the alert as a link.

3. Why does the customer need this? (List the business requirements here)
Customer can easily reach the alert runbook and be able to address their issues.

4. List any affected packages or components.

Epic Goal

  • Make it possible to disable the console operator at install time, while still having a supported+upgradeable cluster.

Why is this important?

  • It's possible to disable console itself using spec.managementState in the console operator config. There is no way to remove the console operator, though. For clusters where an admin wants to completely remove console, we should give the option to disable the console operator as well.

Scenarios

  1. I'm an administrator who wants to minimize my OpenShift cluster footprint and who does not want the console installed on my cluster

Acceptance Criteria

  • It is possible at install time to opt-out of having the console operator installed. Once the cluster comes up, the console operator is not running.

Dependencies (internal and external)

  1. Composable cluster installation

Previous Work (Optional):

  1. https://docs.google.com/document/d/1srswUYYHIbKT5PAC5ZuVos9T2rBnf7k0F1WV2zKUTrA/edit#heading=h.mduog8qznwz
  2. https://docs.google.com/presentation/d/1U2zYAyrNGBooGBuyQME8Xn905RvOPbVv3XFw3stddZw/edit#slide=id.g10555cc0639_0_7

Open questions::

  1. The console operator manages the downloads deployment as well. Do we disable the downloads deployment? Long term we want to move to CLI manager: https://github.com/openshift/enhancements/blob/6ae78842d4a87593c63274e02ac7a33cc7f296c3/enhancements/oc/cli-manager.md

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

In the console-operator repo we need to add `capability.openshift.io/console` annotation to all the manifests that the operator either contains creates on the fly.

 

Manifests are currently present in /bindata and /manifest directories.

 

Here is example of the insights-operator change.

Here is the overall enhancement doc.

 

Feature Overview
Provide CSI drivers to replace all the intree cloud provider drivers we currently have. These drivers will probably be released as tech preview versions first before being promoted to GA.

Goals

  • Framework for rapid creation of CSI drivers for our cloud providers
  • CSI driver for AWS EBS
  • CSI driver for AWS EFS
  • CSI driver for GCP
  • CSI driver for Azure
  • CSI driver for VMware vSphere
  • CSI Driver for Azure Stack
  • CSI Driver for Alicloud
  • CSI Driver for IBM Cloud

Requirements

Requirement Notes isMvp?
Framework for CSI driver  TBD Yes
Drivers should be available to install both in disconnected and connected mode   Yes
Drivers should upgrade from release to release without any impact   Yes
Drivers should be installable via CVO (when in-tree plugin exists)    

Out of Scope

This work will only cover the drivers themselves, it will not include

  • enhancements to the CSI API framework
  • the migration to said drivers from the the intree drivers
  • work for non-cloud provider storage drivers (FC-SAN, iSCSI) being converted to CSI drivers

Background, and strategic fit
In a future Kubernetes release (currently 1.21) intree cloud provider drivers will be deprecated and replaced with CSI equivalents, we need the drivers created so that we continue to support the ecosystems in an appropriate way.

Assumptions

  • Storage SIG won't move out the changeover to a later Kubernetes release

Customer Considerations
Customers will need to be able to use the storage they want.

Documentation Considerations

  • Target audience: cluster admins
  • Updated content: update storage docs to show how to use these drivers (also better expose the capabilities)

This Epic is to track the GA of this feature

Goal

  • Make available the Google Cloud File Service via a CSI driver, it is desirable that this implementation has dynamic provisioning
  • Without GCP filestore support, we are limited to block / RWO only (GCP PD 4.8 GA)
  • Align with what we support on other major public cloud providers.

Why is this important?

  • There is a know storage gap with google cloud where only block is supported
  • More customers deploying on GCE and asking for file / RWX storage.

Scenarios

  1. Install the CSI driver
  2. Remove the CSI Driver
  3. Dynamically provision a CSI Google File PV*
  4. Utilise a Google File PV
  5. Assess optional features such as resize & snapshot

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • ...

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Customers::

  • Telefonica Spain
  • Deutsche Bank

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

As an OCP user, I want images for GCP Filestore CSI Driver and Operator, so that I can install them on my cluster and utilize GCP Filestore shares.

We need to continue to maintain specific areas within storage, this is to capture that effort and track it across releases.

Goals

  • To allow OCP users and cluster admins to detect problems early and with as little interaction with Red Hat as possible.
  • When Red Hat is involved, make sure we have all the information we need from the customer, i.e. in metrics / telemetry / must-gather.
  • Reduce storage test flakiness so we can spot real bugs in our CI.

Requirements

Requirement Notes isMvp?
Telemetry   No
Certification   No
API metrics   No
     

Out of Scope

n/a

Background, and strategic fit
With the expected scale of our customer base, we want to keep load of customer tickets / BZs low

Assumptions

Customer Considerations

Documentation Considerations

  • Target audience: internal
  • Updated content: none at this time.

Notes

In progress:

  • CI flakes:
    • Configurable timeouts for e2e tests
      • Azure is slow and times out often
      • Cinder times out formatting volumes
      • AWS resize test times out

 

High prio:

  • Env. check tool for VMware - users often mis-configure permissions there and blame OpenShift. If we had a tool they could run, it might report better errors.
    • Should it be part of the installer?
    • Spike exists
  • Add / use cloud API call metrics
    • Helps customers to understand why things are slow
    • Helps build cop to understand a flake
      • With a post-install step that filters data from Prometheus that’s still running in the CI job.
    • Ideas:
      • Cloud is throttling X% of API calls longer than Y seconds
      • Attach / detach / provisioning / deletion / mount / unmount / resize takes longer than X seconds?
    • Capture metrics of operations that are stuck and won’t finish.
      • Sweep operation map from executioner???
      • Report operation metric into the highest bucket after the bucket threshold (i.e. if 10minutes is the last bucket, report an operation into this bucket after 10 minutes and don’t wait for its completion)?
      • Ask the monitoring team?
    • Include in CSI drivers too.
      • With alerts too

Unsorted

  • As the number of storage operators grows, it would be grafana board for storage operators
    • CSI driver metrics (from CSI sidecars + the driver itself  + its operator?)
    • CSI migration?
  • Get aggregated logs in cluster
    • They're rotated too soon
    • No logs from dead / restarted pods
    • No tools to combine logs from multiple pods (e.g. 3 controller managers)
  • What storage issues customers have? it was 22% of all issues.
    • Insufficient docs?
    • Probably garbage
  • Document basic storage troubleshooting for our supports
    • What logs are useful when, what log level to use
    • This has been discussed during the GSS weekly team meeting; however, it would be beneficial to have this documented.
  • Common vSphere errors, their debugging and fixing. 
  • Document sig-storage flake handling - not all failed [sig-storage] tests are ours
The details of this Jira Card are restricted (Red Hat Employee and Contractors only)

The End of General support for vSphere 6.7 will be on October 15, 2022. So, vSphere 6.7 will be deprecated for 4.11.

We want to encourage vSphere customers to upgrade to vSphere 7 in OCP 4.11 since VMware is EOLing (general support) for vSphere 6.7 in Oct 2022.

We want the cluster Upgradeable=false + have a strong alert pointing to our docs / requirements.

related slack: https://coreos.slack.com/archives/CH06KMDRV/p1647541493096729

Epic Goal

  • Update all images that we ship with OpenShift to the latest upstream releases and libraries.
  • Exact content of what needs to be updated will be determined as new images are released upstream, which is not known at the beginning of OCP development work. We don't know what new features will be included and should be tested and documented. Especially new CSI drivers releases may bring new, currently unknown features. We expect that the amount of work will be roughly the same as in the previous releases. Of course, QE or docs can reject an update if it's too close to deadline and/or looks too big.

Traditionally we did these updates as bugfixes, because we did them after the feature freeze (FF). Trying no-feature-freeze in 4.12. We will try to do as much as we can before FF, but we're quite sure something will slip past FF as usual.

Why is this important?

  • We want to ship the latest software that contains new features and bugfixes.

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.

Update all OCP and kubernetes libraries in storage operators to the appropriate version for OCP release.

This includes (but is not limited to):

  • Kubernetes:
    • client-go
    • controller-runtime
  • OCP:
    • library-go
    • openshift/api
    • openshift/client-go
    • operator-sdk

Operators:

  • aws-ebs-csi-driver-operator 
  • aws-efs-csi-driver-operator
  • azure-disk-csi-driver-operator
  • azure-file-csi-driver-operator
  • openstack-cinder-csi-driver-operator
  • gcp-pd-csi-driver-operator
  • gcp-filestore-csi-driver-operator
  • manila-csi-driver-operator
  • ovirt-csi-driver-operator
  • vmware-vsphere-csi-driver-operator
  • alibaba-disk-csi-driver-operator
  • ibm-vpc-block-csi-driver-operator
  • csi-driver-shared-resource-operator

 

  • cluster-storage-operator
  • csi-snapshot-controller-operator
  • local-storage-operator
  • vsphere-problem-detector

Update the driver to the latest upstream release. Notify QE and docs with any new features and important bugfixes that need testing or documentation.

(Using separate cards for each driver because these updates can be more complicated)

Update the driver to the latest upstream release. Notify QE and docs with any new features and important bugfixes that need testing or documentation.

(Using separate cards for each driver because these updates can be more complicated)

Update the driver to the latest upstream release. Notify QE and docs with any new features and important bugfixes that need testing or documentation.

(Using separate cards for each driver because these updates can be more complicated)

Update the driver to the latest upstream release. Notify QE and docs with any new features and important bugfixes that need testing or documentation.

This includes ibm-vpc-node-label-updater!

(Using separate cards for each driver because these updates can be more complicated)

There is a new driver release 5.0.0 since the last rebase that includes snapshot support:

https://github.com/kubernetes-sigs/ibm-vpc-block-csi-driver/releases/tag/v5.0.0

Rebase the driver on v5.0.0 and update the deployments in ibm-vpc-block-csi-driver-operator.
There are no corresponding changes in ibm-vpc-node-label-updater since the last rebase.

Update the driver to the latest upstream release. Notify QE and docs with any new features and important bugfixes that need testing or documentation.

(Using separate cards for each driver because these updates can be more complicated)

Update the driver to the latest upstream release. Notify QE and docs with any new features and important bugfixes that need testing or documentation.

(Using separate cards for each driver because these updates can be more complicated)

Epic Goal

  • Enable the migration from a storage intree driver to a CSI based driver with minimal impact to the end user, applications and cluster
  • These migrations would include, but are not limited to:
    • CSI driver for AWS EBS
    • CSI driver for GCP
    • CSI driver for Azure (file and disk)
    • CSI driver for VMware vSphere

Why is this important?

  • OpenShift needs to maintain it's ability to enable PVCs and PVs of the main storage types
  • CSI Migration is getting close to GA, we need to have the feature fully tested and enabled in OpenShift
  • Upstream intree drivers are being deprecated to make way for the CSI drivers prior to intree driver removal

Scenarios

  1. User initiated move to from intree to CSI driver
  2. Upgrade initiated move from intree to CSI driver
  3. Upgrade from EUS to EUS

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>
The details of this Jira Card are restricted (Red Hat Employee and Contractors only)

On new installations, we should make the StorageClass created by the CSI operator the default one. 

However, we shouldn't do that on an upgrade scenario. The main reason is that users might have set  a different quota on the CSI driver Storage Class.

Exit criteria:

  • New clusters get the CSI Storage Class as the default one.
  • Existing clusters don't get their default Storage Classes changed.

This Epic tracks the GA of this feature

Epic Goal

Why is this important?

  • OpenShift needs to maintain it's ability to enable PVCs and PVs of the main storage types
  • CSI Migration is getting close to GA, we need to have the feature fully tested and enabled in OpenShift
  • Upstream intree drivers are being deprecated to make way for the CSI drivers prior to intree driver removal

Scenarios

  1. User initiated move to from intree to CSI driver
  2. Upgrade initiated move from intree to CSI driver
  3. Upgrade from EUS to EUS

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

On new installations, we should make the StorageClass created by the CSI operator the default one. 

However, we shouldn't do that on an upgrade scenario. The main reason is that users might have set  a different quota on the CSI driver Storage Class.

Exit criteria:

  • New clusters get the CSI Storage Class as the default one.
  • Existing clusters don't get their default Storage Classes changed.

OCP/Telco Definition of Done
Epic Template descriptions and documentation.

<--- Cut-n-Paste the entire contents of this description into your new Epic --->

Epic Goal

  • Rebase OpenShift components to k8s v1.24

Why is this important?

  • Rebasing ensures components work with the upcoming release of Kubernetes
  • Address tech debt related to upstream deprecations and removals.

Scenarios

  1. ...

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. k8s 1.24 release

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

Feature Overview

  • As an infrastructure owner, I want a repeatable method to quickly deploy the initial OpenShift cluster.
  • As an infrastructure owner, I want to install the first (management, hub, “cluster 0”) cluster to manage other (standalone, hub, spoke, hub of hubs) clusters.

Goals

  • Enable customers and partners to successfully deploy a single “first” cluster in disconnected, on-premises settings

Requirements

4.11 MVP Requirements

  • Customers and partners needs to be able to download the installer
  • Enable customers and partners to deploy a single “first” cluster (cluster 0) using single node, compact, or highly available topologies in disconnected, on-premises settings
  • Installer must support advanced network settings such as static IP assignments, VLANs and NIC bonding for on-premises metal use cases, as well as DHCP and PXE provisioning environments.
  • Installer needs to support automation, including integration with third-party deployment tools, as well as user-driven deployments.
  • In the MVP automation has higher priority than interactive, user-driven deployments.
  • For bare metal deployments, we cannot assume that users will provide us the credentials to manage hosts via their BMCs.
  • Installer should prioritize support for platforms None, baremetal, and VMware.
  • The installer will focus on a single version of OpenShift, and a different build artifact will be produced for each different version.
  • The installer must not depend on a connected registry; however, the installer can optionally use a previously mirrored registry within the disconnected environment.

Use Cases

  • As a Telco partner engineer (Site Engineer, Specialist, Field Engineer), I want to deploy an OpenShift cluster in production with limited or no additional hardware and don’t intend to deploy more OpenShift clusters [Isolated edge experience].
  • As a Enterprise infrastructure owner, I want to manage the lifecycle of multiple clusters in 1 or more sites by first installing the first  (management, hub, “cluster 0”) cluster to manage other (standalone, hub, spoke, hub of hubs) clusters [Cluster before your cluster].
  • As a Partner, I want to package OpenShift for large scale and/or distributed topology with my own software and/or hardware solution.
  • As a large enterprise customer or Service Provider, I want to install a “HyperShift Tugboat” OpenShift cluster in order to offer a hosted OpenShift control plane at scale to my consumers (DevOps Engineers, tenants) that allows for fleet-level provisioning for low CAPEX and OPEX, much like AKS or GKE [Hypershift].
  • As a new, novice to intermediate user (Enterprise Admin/Consumer, Telco Partner integrator, RH Solution Architect), I want to quickly deploy a small OpenShift cluster for Poc/Demo/Research purposes.

Questions to answer…

  •  

Out of Scope

Out of scope use cases (that are part of the Kubeframe/factory project):

  • As a Partner (OEMs, ISVs), I want to install and pre-configure OpenShift with my hardware/software in my disconnected factory, while allowing further (minimal) reconfiguration of a subset of capabilities later at a different site by different set of users (end customer) [Embedded OpenShift].
  • As an Infrastructure Admin at an Enterprise customer with multiple remote sites, I want to pre-provision OpenShift centrally prior to shipping and activating the clusters in remote sites.

Background, and strategic fit

  • This Section: What does the person writing code, testing, documenting need to know? What context can be provided to frame this feature.

Assumptions

  1. The user has only access to the target nodes that will form the cluster and will boot them with the image presented locally via a USB stick. This scenario is common in sites with restricted access such as government infra where only users with security clearance can interact with the installation, where software is allowed to enter in the premises (in a USB, DVD, SD card, etc.) but never allowed to come back out. Users can't enter supporting devices such as laptops or phones.
  2. The user has access to the target nodes remotely to their BMCs (e.g. iDrac, iLo) and can map an image as virtual media from their computer. This scenario is common in data centers where the customer provides network access to the BMCs of the target nodes.
  3. We cannot assume that we will have access to a computer to run an installer or installer helper software.

Customer Considerations

  • ...

Documentation Considerations

Questions to be addressed:

  • What educational or reference material (docs) is required to support this product feature? For users/admins? Other functions (security officers, etc)?
  • Does this feature have doc impact?
  • New Content, Updates to existing content, Release Note, or No Doc Impact
  • If unsure and no Technical Writer is available, please contact Content Strategy.
  • What concepts do customers need to understand to be successful in [action]?
  • How do we expect customers will use the feature? For what purpose(s)?
  • What reference material might a customer want/need to complete [action]?
  • Is there source material that can be used as reference for the Technical Writer in writing the content? If yes, please link if available.
  • What is the doc impact (New Content, Updates to existing content, or Release Note)?

 

References

 

 

Epic Goal

As a OpenShift infrastructure owner, I want to deploy OpenShift clusters with dual-stack IPv4/IPv6

As a OpenShift infrastructure owner, I want to deploy OpenShift clusters with single-stack IPv6

Why is this important?

IPv6 and dual-stack clusters are requested often by customers, especially from Telco customers. Working with dual-stack clusters is a requirement for many but also a transition into a single-stack IPv6 clusters, which for some of our users is the final destination.

Acceptance Criteria

  • Agent-based installer can deploy IPv6 clusters
  • Agent-based installer can deploy dual-stack clusters
  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.

Previous Work

Karim's work proving how agent-based can deploy IPv6: IPv6 deploy with agent based installer]

Done Checklist * CI - CI is running, tests are automated and merged.

  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>|

For dual-stack installations the agent-cluster-install.yaml must have both an IPv4 and IPv6 subnet in the networkking.MachineNetwork or assisted-service will throw an error. This field is in InstallConfig but it must be added to agent-cluster-install in its Generate().

For IPv4 and IPv6 installs, setting up the MachineNetwork is not needed but it also does not cause problems if its set, so it should be fine to set it all times.

Set the ClusterDeployment CRD to deploy OpenShift in FIPS mode and make sure that after deployment the cluster is set in that mode

In order to install FIPS compliant clusters, we need to make sure that installconfig + agentoconfig based deployments take into account the FIPS config in installconfig.

This task is about passing the config to agentclusterinstall so it makes it into the iso. Once there, AGENT-374 will give it to assisted service

Epic Goal

As an OpenShift infrastructure owner, I want to deploy a cluster zero with RHACM or MCE and have the required components installed when the installation is completed

Why is this important?

BILLI makes it easier to deploy a cluster zero. BILLI users know at installation time what the purpose of their cluster is when they plan the installation. Day-2 steps are necessary to install operators and users, especially when automating installations, want to finish the installation flow when their required components are installed.

Acceptance Criteria

  • A user can provide MCE manifests and have it installed without additional manual steps after the installation is completed
  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

User Story:

As a customer, I want to be able to:

  • Install MCE with the agent-installer

so that I can achieve

  • create an MCE hub with my openshift install

Acceptance Criteria:

Description of criteria:

  • Upstream documentation including examples of the extra manifests needed
  • Unit tests that include MCE extra manifests
  • Ability to install MCE using agent-installer is tested
  • Point 3

(optional) Out of Scope:

We are only allowing the user to provide extra manifests to install MCE at this time. We are not adding an option to "install mce" on the command line (or UI)

Engineering Details:

This requires/does not require a design proposal.
This requires/does not require a feature gate.

User Story:

As a customer, I want to be able to:

  • Install MCE with the agent-installer

so that I can achieve

  • create an MCE hub with my openshift install

Acceptance Criteria:

Description of criteria:

  • Upstream documentation including examples of the extra manifests needed
  • Unit tests that include MCE extra manifests
  • Ability to install MCE using agent-installer is tested
  • Point 3

(optional) Out of Scope:

We are only allowing the user to provide extra manifests to install MCE at this time. We are not adding an option to "install mce" on the command line (or UI)

Engineering Details:

This requires/does not require a design proposal.
This requires/does not require a feature gate.

Epic Goal

  • Rebase cluster autoscaler on top of Kubernetes 1.25

Why is this important?

  • Need to pick up latest upstream changes

Scenarios

  1. ...

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

User Story

As a user I would like to see all the events that the autoscaler creates, even duplicates. Having the CAO set this flag will allow me to continue to see these events.

Background

We have carried a patch for the autoscaler that would enable the duplication of events. This patch can now be dropped because the upstream added a flag for this behavior in https://github.com/kubernetes/autoscaler/pull/4921

Steps

  • add the --record-duplicated-events flag to all autoscaler deployments from the CAO

Stakeholders

  • openshift eng

Definition of Done

  • autoscaler continues to work as expected and produces events for everything
  • Docs
  • this does not require documentation as it preserves existing behavior and provides no interface for user interaction
  • Testing
  • current tests should continue to pass

Feature Overview

Add GA support for deploying OpenShift to IBM Public Cloud

Goals

Complete the existing gaps to make OpenShift on IBM Cloud VPC (Next Gen2) General Available

Requirements

Optional requirements

  • OpenShift can be deployed using Mint mode and STS for cloud provider credentials (future release, tbd)
  • OpenShift can be deployed in disconnected mode https://issues.redhat.com/browse/SPLAT-737)
  • OpenShift on IBM Cloud supports User Provisioned Infrastructure (UPI) deployment method (future release, 4.14?)

Epic Goal

  • Enable installation of private clusters on IBM Cloud. This epic will track associated work.

Why is this important?

  • This is required MVP functionality to achieve GA.

Scenarios

  1. Install a private cluster on IBM Cloud.

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

Background and Goal

Currently in OpenShift we do not support distributing hotfix packages to cluster nodes. In time-sensitive situations, a RHEL hotfix package can be the quickest route to resolving an issue. 

Acceptance Criteria

  1. Under guidance from Red Hat CEE, customers can deploy RHEL hotfix packages to MachineConfigPools.
  2. Customers can easily remove the hotfix when the underlying RHCOS image incorporates the fix.

Before we ship OCP CoreOS layering in https://issues.redhat.com/browse/MCO-165 we need to switch the format of what is currently `machine-os-content` to be the new base image.

The overall plan is:

  • Publish the new base image as `rhel-coreos-8` in the release image
  • Also publish the new extensions container (https://github.com/openshift/os/pull/763) as `rhel-coreos-8-extensions`
  • Teach the MCO to use this without also involving layering/build controller
  • Delete old `machine-os-content`

After https://github.com/openshift/os/pull/763 is in the release image, teach the MCO how to use it. This is basically:

  • Schedule the extensions container as a kubernetes service (just serves a yum repo via http)
  • Change the MCD to write a file into `/etc/yum.repos.d/machine-config-extensions.repo` that consumes it instead of what it does now in pulling RPMs from the mounted container filesystem

As a OCP CoreOS layering developer, having telemetry data about number of cluster using osImageURL will help understand how broadly this feature is getting used and improve accordingly.

Acceptance Criteria:

  • Cluster using Custom osImageURL is available via telemetry

 

Why?

  • Decouple control and data plane. 
    • Customers do not pay Red Hat more to run HyperShift control planes and supporting infrastructure than Standalone control planes and supporting infrastructure.
  • Improve security
    • Shift credentials out of cluster that support the operation of core platform vs workload
  • Improve cost
    • Allow a user to toggle what they don’t need.
    • Ensure a smooth path to scale to 0 workers and upgrade with 0 workers.

 

Assumption

  • A customer will be able to associate a cluster as “Infrastructure only”
  • E.g. one option: management cluster has role=master, and role=infra nodes only, control planes are packed on role=infra nodes
  • OR the entire cluster is labeled infrastructure , and node roles are ignored.
  • Anything that runs on a master node by default in Standalone that is present in HyperShift MUST be hosted and not run on a customer worker node.

 

 

Doc: https://docs.google.com/document/d/1sXCaRt3PE0iFmq7ei0Yb1svqzY9bygR5IprjgioRkjc/edit 

Overview 

Customers do not pay Red Hat more to run HyperShift control planes and supporting infrastructure than Standalone control planes and supporting infrastructure.

Assumption

  • A customer will be able to associate a cluster as “Infrastructure only”
  • E.g. one option: management cluster has role=master, and role=infra nodes only, control planes are packed on role=infra nodes
  • OR the entire cluster is labeled infrastructure, and node roles are ignored.
  • Anything that runs on a master node by default in Standalone that is present in HyperShift MUST be hosted and not run on a customer worker node.

DoD 

Run cluster-storage-operator (CSO) + AWS EBS CSI driver operator + AWS EBS CSI driver control-plane Pods in the management cluster, run the driver DaemonSet in the hosted cluster.

More information here: https://docs.google.com/document/d/1sXCaRt3PE0iFmq7ei0Yb1svqzY9bygR5IprjgioRkjc/edit 

 

As OCP support engineer I want the same guest cluster storage-related objects in output of "hypershift dump cluster --dump-guest-cluster" as in "oc adm must-gather ", so I can debug storage issues easily.

 

must-gather collects: storageclasses persistentvolumes volumeattachments csidrivers csinodes volumesnapshotclasses volumesnapshotcontents

hypershift collects none of this, the relevant code is here: https://github.com/openshift/hypershift/blob/bcfade6676f3c344b48144de9e7a36f9b40d3330/cmd/cluster/core/dump.go#L276

 

Exit criteria:

  • verify that hypershift dump cluster --dump-guest-cluster has storage objects from the guest cluster.

As HyperShift Cluster Instance Admin, I want to run cluster-storage-operator (CSO) in the management cluster, so the guest cluster runs just my applications.

  • Add a new cmdline option for the guest cluster kubeconfig file location
  • Parse both kubeconfigs:
    • One from projected service account, which leads to the management cluster.
    • Second from the new cmdline option introduced above. This one leads to the guest cluster.
  • Tag manifests of objects that should not be deployed by CVO in HyperShift
  • Only on HyperShift:
    • When interacting with Kubernetes API, carefully choose the right kubeconfig to watch / create / update objects in the right cluster.
    • Replace namespaces in all Deployments and other objects that are created in the management cluster. They must be created in the same namespace as the operator.
    • Pass only the guest kubeconfig to the operands (AWS EBS CSI driver operator).

Exit criteria:

  • CSO and AWS EBS CSI driver operator runs in the management cluster in HyperShift
  • Storage works in the guest cluster.
  • No regressions in standalone OCP.

As HyperShift Cluster Instance Admin, I want to run AWS EBS CSI driver operator + control plane of the CSI driver in the management cluster, so the guest cluster runs just my applications.

  • Add a new cmdline option for the guest cluster kubeconfig file location
  • Parse both kubeconfigs:
    • One from projected service account, which leads to the management cluster.
    • Second from the new cmdline option introduced above. This one leads to the guest cluster.
  • Only on HyperShift:
    • When interacting with Kubernetes API, carefully choose the right kubeconfig to watch / create / update objects in the right cluster.
    • Replace namespaces in all Deployments and other objects that are created in the management cluster. They must be created in the same namespace as the operator.
  •  
  •  
    • Pass only the guest kubeconfig to the operand (control-plane Deployment of the CSI driver).

Exit criteria:

  • Control plane Deployment of AWS EBS CSI driver runs in the management cluster in HyperShift.
  • Storage works in the guest cluster.
  • No regressions in standalone OCP.

Epic Goal

  • To improve debug-ability of ovn-k in hypershift
  • To verify the stability of of ovn-k in hypershift
  • To introduce a EgressIP reach-ability check that will work in hypershift

Why is this important?

  • ovn-k is supposed to be GA in 4.12. We need to make sure it is stable, we know the limitations and we are able to debug it similar to the self hosted cluster.

Acceptance Criteria

  • CI - MUST be running successfully with tests automated

Dependencies (internal and external)

  1. This will need consultation with the people working on HyperShift

Previous Work (Optional):

  1. https://issues.redhat.com/browse/SDN-2589

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

Overview 

Customers do not pay Red Hat more to run HyperShift control planes and supporting infrastructure than Standalone control planes and supporting infrastructure.

Assumption

  • A customer will be able to associate a cluster as “Infrastructure only”
  • E.g. one option: management cluster has role=master, and role=infra nodes only, control planes are packed on role=infra nodes
  • OR the entire cluster is labeled infrastructure, and node roles are ignored.
  • Anything that runs on a master node by default in Standalone that is present in HyperShift MUST be hosted and not run on a customer worker node.

DoD 

cluster-snapshot-controller-operator is running on the CP. 

More information here: https://docs.google.com/document/d/1sXCaRt3PE0iFmq7ei0Yb1svqzY9bygR5IprjgioRkjc/edit 

As OpenShift developer I want cluster-csi-snapshot-controller-operator to use existing controllers in library-go, so I don’t need to maintain yet another code that does the same thing as library-go.

  • Check and remove manifests/03_configmap.yaml, it does not seem to be useful.
  • Check and remove manifests/03_service.yaml, it does not seem to be useful (at least now).
  • Use DeploymentController from library-go to sync Deployments.
  • Get rid of common/ package? It does not seem to be useful.
  • Use StaticResourceController for static content, including the snapshot CRDs.

Note: if this refactoring introduces any new conditions, we must make sure that 4.11 snapshot controller clears them to support downgrade! This will need 4.11 BZ + z-stream update!

Similarly, if some conditions become obsolete / not managed by any controller, they must be cleared by 4.12 operator.

Exit criteria:

  • The operator code is smaller.
  • No regressions in standalone OCP.
  • Upgrade/downgrade from/to standalone OCP 4.11 works.

As HyperShift Cluster Instance Admin, I want to run cluster-csi-snapshot-controller-operator in the management cluster, so the guest cluster runs just my applications.

  • Add a new cmdline option for the guest cluster kubeconfig file location
  • Parse both kubeconfigs:
    • One from projected service account, which leads to the management cluster.
    • Second from the new cmdline option introduced above. This one leads to the guest cluster.
  • Move creation of manifests/08_webhook_service.yaml from CVO to the operator - it needs to be created in the management cluster.
  • Tag manifests of objects that should not be deployed by CVO in HyperShift by
  • Only on HyperShift:
    • When interacting with Kubernetes API, carefully choose the right kubeconfig to watch / create / update objects in the right cluster.
    • Replace namespaces in all Deployments and other objects that are created in the management cluster. They must be created in the same namespace as the operator.
    • Don’t create operand’s PodDisruptionBudget?
    • Update ValidationWebhookConfiguration to point directly to URL exposed by manifests/08_webhook_service.yaml instead of a Service. The Service is not available in the guest cluster.
    • Pass only the guest kubeconfig to the operands (both the webhook and csi-snapshot-controller).
    • Update unit tests to handle two kube clients.

Exit criteria:

  • cluster-csi-snapshot-controller-operator runs in the management cluster in HyperShift
  • csi-snapshot-controller runs in the management cluster in HyperShift
  • It is possible to take & restore volume snapshot in the guest cluster.
  • No regressions in standalone OCP.

OC mirror is GA product as of Openshift 4.11 .

The goal of this feature is to solve any future customer request for new features or capabilities in OC mirror 

Epic Goal

  • Mirror to mirror operations and custom mirroring flows required by IBM CloudPak catalog management

Why is this important?

  • IBM needs additional customization around the actual mirroring of images to enable CloudPaks to fully adopt OLM-style operator packaging and catalog management
  • IBM CloudPaks introduce additional compute architectures, increasing the download volume by 2/3rds to day, we need the ability to effectively filter non-required image versions of OLM operator catalogs during filtering for other customers that only require a single or a subset of the available image architectures
  • IBM CloudPaks regularly run on older OCP versions like 4.8 which require additional work to be able to read the mirrored catalog produced by oc mirror

Scenarios

  1. Customers can use the oc utility and delegate the actual image mirror step to another tool
  2. Customers can mirror between disconnected registries using the oc utility
  3. The oc utility supports filtering manifest lists in the context of multi-arch images according to the sparse manifest list proposal in the distribution spec

Acceptance Criteria

  • Customers can use the oc utility to mirror between two different air-gapped environments
  • Customers can specify the desired computer architectures and oc mirror will create sparse manifest lists in the target registry as a result

Dependencies (internal and external)

Previous Work:

  1. WRKLDS-369
  2. Disconnected Mirroring Improvement Proposal

Related Work:

  1. https://github.com/opencontainers/distribution-spec/pull/310
  2. https://github.com/distribution/distribution/pull/3536
  3. https://docs.google.com/document/d/10ozLoV7sVPLB8msLx4LYamooQDSW-CAnLiNiJ9SER2k/edit?usp=sharing
The details of this Jira Card are restricted (Red Hat Employee and Contractors only)
The details of this Jira Card are restricted (Red Hat Employee and Contractors only)

Incomplete Features

When this image was assembled, these features were not yet completed. Therefore, only the Jira Cards included here are part of this release

Epic Goal

  • Enabling integration of single hub cluster to install both ARM and x86 spoke clusters
  • Enabling support for heterogeneous OCP clusters
  • document requirements deployment flows
  • support in disconnected environment

Why is this important?

  • clients request

Scenarios

  1. Users manage both ARM and x86 machines, we should not require to have two different hub clusters
  2. Users manage a mixed architecture clusters without requirement of all the nodes to be of the same architecture

Acceptance Criteria

  • Process is well documented
  • we are able to install in a disconnected environment

We have a set of images

  • quay.io/edge-infrastructure/assisted-installer-agent:latest
  • quay.io/edge-infrastructure/assisted-installer-controller:latest
  • quay.io/edge-infrastructure/assisted-installer:latest

that should become multiarch images. This should be done both in upstream and downstream.

As a reference, we have built internally those images as multiarch and made them available as

  • registry.redhat.io/rhai-tech-preview/assisted-installer-agent-rhel8:latest
  • registry.redhat.io/rhai-tech-preview/assisted-installer-reporter-rhel8:latest
  • registry.redhat.io/rhai-tech-preview/assisted-installer-rhel8:latest

They can be consumed by the Assisted Serivce pod via the following env

    - name: AGENT_DOCKER_IMAGE
      value: registry.redhat.io/rhai-tech-preview/assisted-installer-agent-rhel8:latest
    - name: CONTROLLER_IMAGE
      value: registry.redhat.io/rhai-tech-preview/assisted-installer-reporter-rhel8:latest
    - name: INSTALLER_IMAGE
      value: registry.redhat.io/rhai-tech-preview/assisted-installer-rhel8:latest

OLM would have to support a mechanism like podAffinity which allows multiple architecture values to be specified which enables it to pin operators to the matching architecture worker nodes

Ref: https://github.com/openshift/enhancements/pull/1014

 

Cut a new release of the OLM API and update OLM API dependency version (go.mod) in OLM package; then
Bring the upstream changes from OLM-2674 to the downstream olm repo.

A/C:

 - New OLM API version release
 - OLM API dependency updated in OLM Project
 - OLM Subscription API changes  downstreamed
 - OLM Controller changes  downstreamed
 - Changes manually tested on Cluster Bot

Feature Overview

We drive OpenShift cross-market customer success and new customer adoption with constant improvements and feature additions to the existing capabilities of our OpenShift Core Networking (SDN and Network Edge). This feature captures that natural progression of the product.

Goals

  • Feature enhancements (performance, scale, configuration, UX, ...)
  • Modernization (incorporation and productization of new technologies)

Requirements

  • Core Networking Stability
  • Core Networking Performance and Scale
  • Core Neworking Extensibility (Multus CNIs)
  • Core Networking UX (Observability)
  • Core Networking Security and Compliance

In Scope

  • Network Edge (ingress, DNS, LB)
  • SDN (CNI plugins, openshift-sdn, OVN, network policy, egressIP, egress Router, ...)
  • Networking Observability

Out of Scope

There are definitely grey areas, but in general:

  • CNV
  • Service Mesh
  • CNF

Documentation Considerations

Questions to be addressed:

  • What educational or reference material (docs) is required to support this product feature? For users/admins? Other functions (security officers, etc)?
  • Does this feature have doc impact?
  • New Content, Updates to existing content, Release Note, or No Doc Impact
  • If unsure and no Technical Writer is available, please contact Content Strategy.
  • What concepts do customers need to understand to be successful in [action]?
  • How do we expect customers will use the feature? For what purpose(s)?
  • What reference material might a customer want/need to complete [action]?
  • Is there source material that can be used as reference for the Technical Writer in writing the content? If yes, please link if available.
  • What is the doc impact (New Content, Updates to existing content, or Release Note)?

Goal: Provide queryable metrics and telemetry for cluster routes and sharding in an OpenShift cluster.

Problem: Today we test OpenShift performance and scale with best-guess or anecdotal evidence for the number of routes that our customers use. Best practices for a large number of routes in a cluster is to shard, however we have no visibility with regard to if and how customers are using sharding.

Why is this important? These metrics will inform our performance and scale testing, documented cluster limits, and how customers are using sharding for best practice deployments.

Dependencies (internal and external):

Prioritized epics + deliverables (in scope / not in scope):

Not in scope:

Estimate (XS, S, M, L, XL, XXL):

Previous Work:

Open questions:

Acceptance criteria:

Epic Done Checklist:

  • CI - CI Job & Automated tests: <link to CI Job & automated tests>
  • Release Enablement: <link to Feature Enablement Presentation> 
  • DEV - Upstream code and tests merged: <link to meaningful PR orf GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>
  • Notes for Done Checklist
    • Adding links to the above checklist with multiple teams contributing; select a meaningful reference for this Epic.
    • Checklist added to each Epic in the description, to be filled out as phases are completed - tracking progress towards “Done” for the Epic.

Description:

As described in the Design Doc, the following information is needed to be exported from Cluster Ingress Operator:

  • Number of routes/shard

Design 2 will be implemented as part of this story.

 

Acceptance Criteria:

  • Support for exporting the above mentioned metrics by Cluster Ingress Operator

Description:

As described in the Metrics to be sent via telemetry section of the Design Doc, the following metrics is needed to be sent from OpenShift cluster to Red Hat premises:

  • Minimum Routes per Shard
    • Recording Rule – cluster:route_metrics_controller_routes_per_shard:min  : min(route_metrics_controller_routes_per_shard)
    • Gives the minimum value of Routes per Shard.
  • Maximum Routes per Shard
    • Recording Rule – cluster:route_metrics_controller_routes_per_shard:max  : max(route_metrics_controller_routes_per_shard)
    • Gives the maximum value of Routes per Shard.
  • Average Routes per Shard
    • Recording Rule – cluster:route_metrics_controller_routes_per_shard:avg  : avg(route_metrics_controller_routes_per_shard)
    • Gives the average value of Routes per Shard.
  • Median Routes per Shard
    • Recording Rule – cluster:route_metrics_controller_routes_per_shard:median  : quantile(0.5, route_metrics_controller_routes_per_shard)
    • Gives the median value of Routes per Shard.
  • Number of Routes summed by TLS Termination type
    • Recording Rule – cluster:openshift_route_info:tls_termination:sum : sum (openshift_route_info) by (tls_termination)
    • Gives the number of Routes for each tls_termination value. The possible values for tls_termination are edge, passthrough and reencrypt. 

The metrics should be allowlisted on the cluster side.

The steps described in Sending metrics via telemetry are needed to be followed. Specifically step 5.

Depends on CFE-478.

Acceptance Criteria:

  • Support for sending the above mentioned metrics from OpenShift clusters to the Red Hat premises by allowlisting metrics on the cluster side

This is a epic bucket for all activities surrounding the creation of declarative approach to release and maintain OLM catalogs.

Epic Goal

  • Allow Operator Authors to easily change the layout of the update graph in a single location so they can version/maintain/release it via git and have more approachable controls about graph vertices than today's replaces, skips and/or skipRange taxonomy
  • Allow Operators authors to have control over channel and bundle channel membership

Why is this important?

  • The imperative catalog maintenance approach so far with opm is being moved to a declarative format (OLM-2127 and OLM-1780) moving away from bundle-level controls but the update graph properties are still attached to a bundle
  • We've received feedback from the RHT internal developer community that maintaining and reasoning about the graph in the context of a single channel is still too hard, even with visualization tools
  • making the update graph easily changeable is important to deliver on some of the promises of declarative index configuration
  • The current interface for declarative index configuration still relies on skips, skipRange and replaces to shape the graph on a per-bundle level - this is too complex at a certain point with a lot of bundles in channels, we need to something at the package level

Scenarios

  1. An Operator author wants to release a new version replacing the latest version published previously
  2. After additional post-GA testing an Operator author wants to establish a new update path to an existing released version from an older, released version
  3. After finding a bug post-GA an Operator author wants to temporarily remove a known to be problematic update path
  4. An automated system wants to push a bundle inbetween an existing update path as a result of an Operator (base) image rebuild (Freshmaker use case)
  5. A user wants to take a declarative graph definition and turn it into a graphical image for visually ensuring the graph looks like they want
  6. An Operator author wants to promote a certain bundle to an additional / different channel to indicate progress in maturity of the operator.

Acceptance Criteria

  • The declarative format has to be user readable and terse enough to make quick modifications
  • The declarative format should be machine writeable (Freshmaker)
  • The update graph is declared and modified in a text based format aligned with the declarative config
  • it has to be possible to add / removes edges at the leave of the graph (releasing/unpublishing a new version)
  • it has to be possible to add/remove new vertices between existing edges (releasing/retracting a new update path)
  • it has to be possible to add/remove new edges in between existing vertices (releasing/unpublishing a version inbetween, freshmaker user case)
  • it has to be possible to change the channel member ship of a bundle after it's published (channel promotion)
  • CI - MUST be running successfully with tests automated
  • it has to be possible to add additional metadata later to implement OLM-2087 and OLM-259 if required

Dependencies (internal and external)

  1. Declarative Index Config (OLM-2127)

Previous Work:

  1. Declarative Index Config (OLM-1780)

Related work

Open questions:

  1. What other manipulation scenarios are required?
    1. Answer: deprecation of content in the spirit of OLM-2087
    2. Answer: cross-channel update hints as described in OLM-2059 if that implementation requires it

 

When working on this Epic, it's important to keep in mind this other potentially related Epic: https://issues.redhat.com/browse/OLM-2276

 

Jira Description

As an OPM maintainer, I want to downstream the PR for (OCP 4.12 ) and backport it to OCP 4.11 so that IIB will NOT be impacted by the changes when it upgrades the OPM version to use the next/future opm upstream release (v1.25.0).

Summary / Background

IIB(the downstream service that manages the indexes) uses the upstream version and if they bump the OPM version to the next/future (v1.25.0) release with this change before having the downstream images updated then: the process to manage the indexes downstream will face issues and it will impact the distributions. 

Acceptance Criteria

  • The changes in the PR are available for the releases which uses FBC -> OCP 4.11, 4.12

Definition of Ready

  • PRs merged into downstream OCP repos branches 4.11/4.12

Definition of Done

  • We checked that the downstream images are with the changes applied (i.e.: we can try to verify in the same way that we checked if the changes were in the downstream for the fix OLM-2639 )

enhance the veneer rendering to be able to read the input veneer data from stdin, via a pipe, in a manner similar to https://dev.to/napicella/linux-pipes-in-golang-2e8j

then the command could be used in a manner similar to many k8s examples like

```shell
opm alpha render-veneer semver -o yaml < infile > outfile
```

Upstream issue link: https://github.com/operator-framework/operator-registry/issues/1011

tldr: three basic claims, the rest is explanation and one example

  1. We cannot improve long term maintainability solely by fixing bugs.
  2. Teams should be asked to produce designs for improving maintainability/debugability.
  3. Specific maintenance items (or investigation of maintenance items), should be placed into planning as peer to PM requests and explicitly prioritized against them.

While bugs are an important metric, fixing bugs is different than investing in maintainability and debugability. Investing in fixing bugs will help alleviate immediate problems, but doesn't improve the ability to address future problems. You (may) get a code base with fewer bugs, but when you add a new feature, it will still be hard to debug problems and interactions. This pushes a code base towards stagnation where it gets harder and harder to add features.

One alternative is to ask teams to produce ideas for how they would improve future maintainability and debugability instead of focusing on immediate bugs. This would produce designs that make problem determination, bug resolution, and future feature additions faster over time.

I have a concrete example of one such outcome of focusing on bugs vs quality. We have resolved many bugs about communication failures with ingress by finding problems with point-to-point network communication. We have fixed the individual bugs, but have not improved the code for future debugging. In so doing, we chase many hard to diagnose problem across the stack. The alternative is to create a point-to-point network connectivity capability. this would immediately improve bug resolution and stability (detection) for kuryr, ovs, legacy sdn, network-edge, kube-apiserver, openshift-apiserver, authentication, and console. Bug fixing does not produce the same impact.

We need more investment in our future selves. Saying, "teams should reserve this" doesn't seem to be universally effective. Perhaps an approach that directly asks for designs and impacts and then follows up by placing the items directly in planning and prioritizing against PM feature requests would give teams the confidence to invest in these areas and give broad exposure to systemic problems.


Relevant links:

OCP/Telco Definition of Done

Epic Template descriptions and documentation.

Epic Goal

Why is this important?

  • This regression is a major performance and stability issue and it has happened once before.

Drawbacks

  • The E2E test may be complex due to trying to determine what DNS pods are responding to DNS requests. This is straightforward using the chaos plugin.

Scenarios

  • CI Testing

Acceptance Criteria

  • CI - MUST be running successfully with tests automated

Dependencies (internal and external)

  1. SDN Team

Previous Work (Optional):

  1. N/A

Open questions::

  1. Where do these E2E test go? SDN Repo? DNS Repo?

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub
    Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub
    Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

Enable the chaos plugin https://coredns.io/plugins/chaos/ in our CoreDNS configuration so that we can use a DNS query to easily identify what DNS pods are responding to our requests.

Epic Goal

  • Change the default value for the spec.tuningOptions.maxConnections field in the IngressController API, which configures the HAProxy maxconn setting, to 50000 (fifty thousand).

Why is this important?

  • The maxconn setting constrains the number of simultaneous connections that HAProxy accepts. Beyond this limit, the kernel queues incoming connections. 
  • Increasing maxconn enables HAProxy to queue incoming connections intelligently.  In particular, this enables HAProxy to respond to health probes promptly while queueing other connections as needed.
  • The default setting of 20000 has been in place since OpenShift 3.5 was released in April 2017 (see BZ#1405440, commit, RHBA-2017:0884). 
  • Hardware capabilities have increased over time, and the current default is too low for typical modern machine sizes. 
  • Increasing the default setting improves HAProxy's performance at an acceptable cost in the common case. 

Scenarios

  1. As a cluster administrator who is installing OpenShift on typical hardware, I want OpenShift router to be tuned appropriately to take advantage of my hardware's capabilities.

Acceptance Criteria

  • CI is passing. 
  • The new default setting is clearly documented. 
  • A release note informs cluster administrators of the change to the default setting. 

Dependencies (internal and external)

  1. None.

Previous Work (Optional):

  1. The  haproxy-max-connections-tuning enhancement made maxconn configurable without changing the default.  The enhancement document details the tradeoffs in terms of memory for various settings of nbthreads and maxconn with various numbers of routes. 

Open questions::

  1. ...

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

 

Feature Overview

  • This Section:* High-Level description of the feature ie: Executive Summary
  • Note: A Feature is a capability or a well defined set of functionality that delivers business value. Features can include additions or changes to existing functionality. Features can easily span multiple teams, and multiple releases.

 

Goals

  • This Section:* Provide high-level goal statement, providing user context and expected user outcome(s) for this feature

 

Requirements

  • This Section:* A list of specific needs or objectives that a Feature must deliver to satisfy the Feature.. Some requirements will be flagged as MVP. If an MVP gets shifted, the feature shifts. If a non MVP requirement slips, it does not shift the feature.

 

Requirement Notes isMvp?
CI - MUST be running successfully with test automation This is a requirement for ALL features. YES
Release Technical Enablement Provide necessary release enablement details and documents. YES

 

(Optional) Use Cases

This Section: 

  • Main success scenarios - high-level user stories
  • Alternate flow/scenarios - high-level user stories
  • ...

 

Questions to answer…

  • ...

 

Out of Scope

 

Background, and strategic fit

This Section: What does the person writing code, testing, documenting need to know? What context can be provided to frame this feature.

 

Assumptions

  • ...

 

Customer Considerations

  • ...

 

Documentation Considerations

Questions to be addressed:

  • What educational or reference material (docs) is required to support this product feature? For users/admins? Other functions (security officers, etc)?
  • Does this feature have doc impact?  
  • New Content, Updates to existing content,  Release Note, or No Doc Impact
  • If unsure and no Technical Writer is available, please contact Content Strategy.
  • What concepts do customers need to understand to be successful in [action]?
  • How do we expect customers will use the feature? For what purpose(s)?
  • What reference material might a customer want/need to complete [action]?
  • Is there source material that can be used as reference for the Technical Writer in writing the content? If yes, please link if available.
  • What is the doc impact (New Content, Updates to existing content, or Release Note)?
The details of this Jira Card are restricted (Red Hat Employee and Contractors only)

When OCP is performing cluster upgrade user should be notified about this fact.

There are two possibilities how to surface the cluster upgrade to the users:

  • Display a console notification throughout OCP web UI saying that the cluster is currently under upgrade.
  • Global notification throughout OCP web UI saying that the cluster is currently under upgrade.
  • Have an alert firing for all the users of OCP stating the cluster is undergoing an upgrade. 

 

AC:

  • Console-operator will create a ConsoleNotification CR when the cluster is being upgraded. Once the upgrade is done console-operator will remote that CR. These are the three statuses based on which we are determining if the cluster is being upgraded.
  • Add unit tests

 

Note: We need to decide if we want to distinguish this particular notification by a different color? ccing Ali Mobrem 

 

Created from: https://issues.redhat.com/browse/RFE-3024

As a developer, I want to make status.HostIP for Pods visible in the Pod details page of the OCP Web Console. Currently there is no way to view the node IP for a Pod in the OpenShift Web Console.  When viewing a Pod in the console, the field status.HostIP is not visible.

 

Acceptance criteria:

  • Make pod's HostIP field visible in the pod details page, similarly to PodIP field

As a console user I want to have option to:

  • Restart Deployment
  • Retry latest DeploymentConfig if it failed

 

For Deployments we will add the 'Restart rollout' action button. This action will PATCH the Deployment object's 'spec.template.metadata.annotations' block, by adding 'openshift.io/restartedAt: <actual-timestamp>' annotation. This will restart the deployment, by creating a new ReplicaSet.

  • action is disabled if:
    • Deployment is paused

 

For DeploymentConfig we will add 'Retry rollout' action button.  This action will PATCH the latest revision of ReplicationController object's 'metadata.annotations' block by setting 'openshift.io/deployment/phase: "New"' and removing openshift.io/deployment.cancelled and openshift.io/deployment.status-reason.

  • action is enabled if:
    • latest revision of the ReplicationController resource is in Failed phase
  • action is disabled if:
    • latest revision of the ReplicationController resource is in Complete phase
    • DeploymentConfig does not have any rollouts
    • DeploymentConfigs is paused

 

Acceptance Criteria:

  • Add the 'Restart rollout' action button for the Deployment resource to both action menu and kebab menu
  • Add the 'Retry rollout' action button for the DeploymentConfig resource to both action menu and kebab menu

 

BACKGROUND:

OpenShift console will be updated to allow rollout restart deployment from the console itself.

Currently, from the OpenShift console, for the resource “deploymentconfigs” we can only start and pause the rollout, and for the resource “deployment” we can only resume the rollout. None of the resources (deployment & deployment config) has this option to restart the rollout. So, that is the reason why the customer wants this functionality to perform the same action from the CLI as well as the OpenShift console.

The customer wants developers who are not fluent with the oc tool and terminal utilities, can use the console instead of the terminal to restart deployment, just like we use to do it through CLI using the command “oc rollout restart deploy/<deployment-name>“.
Usually when developers change the config map that deployment uses they have to restart pods. Currently, the developers have to use the oc rollout restart deployment command. The customer wants the functionality to get this button/menu to perform the same action from the console as well.

Design
Doc: https://docs.google.com/document/d/1i-jGtQGaA0OI4CYh8DH5BBIVbocIu_dxNt3vwWmPZdw/edit

Pre-Work Objectives

Since some of our requirements from the ACM team will not be available for the 4.12 timeframe, the team should work on anything we can get done in the scope of the console repo so that when the required items are available in 4.13, we can be more nimble in delivering GA content for the Unified Console Epic.

Overall GA Key Objective
Providing our customers with a single simplified User Experience(Hybrid Cloud Console)that is extensible, can run locally or in the cloud, and is capable of managing the fleet to deep diving into a single cluster. 
Why customers want this?

  1. Single interface to accomplish their tasks
  2. Consistent UX and patterns
  3. Easily accessible: One URL, one set of credentials

Why we want this?

  • Shared code -  improve the velocity of both teams and most importantly ensure consistency of the experience at the code level
  • Pre-built PF4 components
  • Accessibility & i18n
  • Remove barriers for enabling ACM

Phase 2 Goal: Productization of the united Console 

  1. Enable user to quickly change context from fleet view to single cluster view
    1. Add Cluster selector with “All Cluster” Option. “All Cluster” = ACM
    2. Shared SSO across the fleet
    3. Hub OCP Console can connect to remote clusters API
    4. When ACM Installed the user starts from the fleet overview aka “All Clusters”
  2. Share UX between views
    1. ACM Search —> resource list across fleet -> resource details that are consistent with single cluster details view
    2. Add Cluster List to OCP —> Create Cluster

As a developer I would like to disable clusters like *KS that we can't support for multi-cluster (for instance because we can't authenticate). The ManagedCluster resource has a vendor label that we can use to know if the cluster is supported.

cc Ali Mobrem Sho Weimer Jakub Hadvig 

UPDATE: 9/20/22 : we want an allow-list with OpenShift, ROSA, ARO, ROKS, and  OpenShiftDedicated

Acceptance criteria:

  • Investigate if console-operator should pass info about which cluster are supported and unsupported to the frontend
  • Unsupported clusters should not appear in the cluster dropdown
  • Unsupported clusters based off
    • defined vendor label
    • non 4.x ocp clusters

Feature Overview

RHEL CoreOS should be updated to RHEL 9.2 sources to take advantage of newer features, hardware support, and performance improvements.

 

Requirements

  • RHEL 9.x sources for RHCOS builds starting with OCP 4.13 and RHEL 9.2.

 

Requirement Notes isMvp?
CI - MUST be running successfully with test automation This is a requirement for ALL features. YES
Release Technical Enablement Provide necessary release enablement details and documents. YES

(Optional) Use Cases

  • 9.2 Preview via Layering No longer necessary assuming we stay the course of going all in on 9.2

Assumptions

  • ...

Customer Considerations

  • ...

Documentation Considerations

Questions to be addressed:

  • What educational or reference material (docs) is required to support this product feature? For users/admins? Other functions (security officers, etc)?
  • Does this feature have doc impact?
  • New Content, Updates to existing content, Release Note, or No Doc Impact
  • If unsure and no Technical Writer is available, please contact Content Strategy.
  • What concepts do customers need to understand to be successful in [action]?
  • How do we expect customers will use the feature? For what purpose(s)?
  • What reference material might a customer want/need to complete [action]?
  • Is there source material that can be used as reference for the Technical Writer in writing the content? If yes, please link if available.
  • What is the doc impact (New Content, Updates to existing content, or Release Note)?

PROBLEM

We would like to improve our signal for RHEL9 readiness by increasing internal engineering engagement and external partner engagement on our community OpehShift offering, OKD.

PROPOSAL

Adding OKD to run on SCOS (a CentOS stream for CoreOS) brings the community offering closer to what a partner or an internal engineering team might expect on OCP.

ACCEPTANCE CRITERIA

Image has been switched/included: 

DEPENDENCIES

The SCOS build payload.

RELATED RESOURCES

OKD+SCOS proposal: https://docs.google.com/presentation/d/1_Xa9Z4tSqB7U2No7WA0KXb3lDIngNaQpS504ZLrCmg8/edit#slide=id.p

OKD+SCOS work draft: https://docs.google.com/document/d/1cuWOXhATexNLWGKLjaOcVF4V95JJjP1E3UmQ2kDVzsA/edit

 

Acceptance Criteria

A stable OKD on SCOS is built and available to the community sprintly.

 

This comes up when installing ipi-on-aws on arm64 with the custom payload build at quay.io/aleskandrox/okd-release:4.12.0-0.okd-centos9-full-rebuild-arm64 that is using scos as machine-content-os image

 

```

[root@ip-10-0-135-176 core]# crictl logs c483c92e118d8
2022-08-11T12:19:39+00:00 [cnibincopy] FATAL ERROR: Unsupported OS ID=scos
```

 

The probable fix has to land on https://github.com/openshift/cluster-network-operator/blob/master/bindata/network/multus/multus.yaml#L41-L53

Overview 

HyperShift came to life to serve multiple goals, some are main near-term, some are secondary that serve well long-term. 

Main Goals for hosted control planes (HyperShift)

  • Optimize OpenShift for Cost/footprint/ which improves our competitive stance against the *KSes
  • Establish separation of concerns which makes it more resilient for SRE to manage their workload clusters (be it security, configuration management, etc).
  • Simplify and enhance multi-cluster management experience especially since multi-cluster is becoming an industry need nowadays. 

Secondary Goals

HyperShift opens up doors to penetrate the market. HyperShift enables true hybrid (CP and Workers decoupled, mixed IaaS, mixed Arch,...). An architecture that opens up more options to target new opportunities in the cloud space. For more details on this one check: Hosted Control Planes (aka HyperShift) Strategy [Live Document]

 

Hosted Control Planes (HyperShift) Map 

To bring hosted control planes to our customers, we need the means to ship it. Today MCE is how HyperShift shipped, and installed so that customers can use it. There are two main customers for hosted-control-planes: 

 

  • Self-managed: In that case, Red Hat would provide hosted control planes as a service that is managed and SREed by the customer for their tenants (hence “self”-managed). In this management model, our external customers are the direct consumers of the multi-cluster control plane as a servie. Once MCE is installed, they can start to self-service dedicated control planes. 

 

  • Managed: This is OpenShift as a managed service, today we only “manage” the CP, and share the responsibility for other system components, more info here. To reduce management costs incurred by service delivery organizations which translates to operating profit (by reducing variable costs per control-plane), as well as to improve user experience, lower platform overhead (allow customers to focus mostly on writing applications and not concern themselves with infrastructure artifacts), and improve the cluster provisioning experience. HyperShift is shipped via MCE, and delivered to Red Hat managed SREs (same consumption route). However, for managed services, additional tooling needs to be refactored to support the new provisioning path. Furthermore, unlike self-managed where customers are free to bring their own observability stack, Red Hat managed SREs need to observe the managed fleet to ensure compliance with SLOs/SLIs/…

 

If you have noticed, MCE is the delivery mechanism for both management models. The difference between managed and self-managed is the consumer persona. For self-managed, it's the customer SRE for managed its the RH SRE

High-level Requirements

For us to ship HyperShift in the product (as hosted control planes) in either management model, there is a necessary readiness checklist that we need to satisfy. Below are the high-level requirements needed before GA: 

 

  • Hosted control planes fits well with our multi-cluster story (with MCE)
  • Hosted control planes APIs are stable for consumption  
  • Customers are not paying for control planes/infra components.  
  • Hosted control planes has an HA and a DR story
  • Hosted control planes is in parity with top-level add-on operators 
  • Hosted control planes reports metrics on usage/adoption
  • Hosted control planes is observable  
  • HyperShift as a backend to managed services is fully unblocked.

 

Please also have a look at our What are we missing in Core HyperShift for GA Readiness? doc. 

Hosted control planes fits well with our multi-cluster story

Multi-cluster is becoming an industry need today not because this is where trend is going but because it’s the only viable path today to solve for many of our customer’s use-cases. Below is some reasoning why multi-cluster is a NEED:

 

 

As a result, multi-cluster management is a defining category in the market where Red Hat plays a key role. Today Red Hat solves for multi-cluster via RHACM and MCE. The goal is to simplify fleet management complexity by providing a single pane of glass to observe, secure, police, govern, configure a fleet. I.e., the operand is no longer one cluster but a set, a fleet of clusters. 

HyperShift logically centralized architecture, as well as native separation of concerns and superior cluster lifecyle management experience, makes it a great fit as the foundation of our multi-cluster management story. 

Thus the following stories are important for HyperShift: 

  • When lifecycling OpenShift clusters (for any OpenShift form factor) on any of the supported providers from MCE/ACM/OCM/CLI as a Cluster Service Consumer  (RH managed SRE, or self-manage SRE/admin):
  • I want to be able to use a consistent UI so I can manage and operate (observe, govern,...) a fleet of clusters.
  • I want to specify HA constraints (e.g., deploy my clusters in different regions) while ensuring acceptable QoS (e.g., latency boundaries) to ensure/reduce any potential downtime for my workloads. 
  • When operating OpenShift clusters (for any OpenShift form factor) on any of the supported provider from MCE/ACM/OCM/CLI as a Cluster Service Consumer  (RH managed SRE, or self-manage SRE/admin):
  • I want to be able to backup any critical data so I am able to restore them in case of hosting service cluster (management cluster) failure. 

Refs:

Hosted control planes APIs are stable for consumption.

 

HyperShift is the core engine that will be used to provide hosted control-planes for consumption in managed and self-managed. 

 

Main user story:  When life cycling clusters as a cluster service consumer via HyperShift core APIs, I want to use a stable/backward compatible API that is less susceptible to future changes so I can provide availability guarantees. 

 

Ref: What are we missing in Core HyperShift for GA Readiness?

Customers are not paying for control planes/infra components. 

 

Customers do not pay Red Hat more to run HyperShift control planes and supporting infrastructure than Standalone control planes and supporting infrastructure.

Assumptions

  • A customer will be able to associate a cluster as “Infrastructure only”
  • E.g. one option: management cluster has role=master, and role=infra nodes only, control planes are packed on role=infra nodes
  • OR the entire cluster is labeled infrastructure , and node roles are ignored.
  • Anything that runs on a master node by default in Standalone that is present in HyperShift MUST be hosted and not run on a customer worker node.

HyperShift - proposed cuts from data plane

HyperShift has an HA and a DR story

When operating OpenShift clusters (for any OpenShift form factor) from MCE/ACM/OCM/CLI as a Cluster Service Consumer  (RH managed SRE, or self-manage SRE/admin) I want to be able to migrate CPs from one hosting service cluster to another:

  • as means for disaster recovery in the case of total failure
  • so that scaling pressures on a management cluster can be mitigated or a management cluster can be decommissioned.

More information: 

 

Hosted control planes reports metrics on usage/adoption

To understand usage patterns and inform our decision making for the product. We need to be able to measure adoption and assess usage.

See Hosted Control Planes (aka HyperShift) Strategy [Live Document]

Hosted control plane is observable  

Whether it's managed or self-managed, it’s pertinent to report health metrics to be able to create meaningful Service Level Objectives (SLOs), alert of failure to meet our availability guarantees. This is especially important for our managed services path. 

HyperShift is in parity with top-level add-on operators

https://issues.redhat.com/browse/OCPPLAN-8901 

Unblock HyperShift as a backend to managed services

HyperShift for managed services is a strategic company goal as it improves usability, feature, and cost competitiveness against other managed solutions, and because managed services/consumption-based cloud services is where we see the market growing (customers are looking to delegate platform overhead). 

 

We should make sure our SD milestones are unblocked by the core team. 

 

Note 

This feature reflects HyperShift core readiness to be consumed. When all related EPICs and stories in this EPIC are complete HyperShift can be considered ready to be consumed in GA form. This does not describe a date but rather the readiness of core HyperShift to be consumed in GA form NOT the GA itself.

- GA date for self-managed will be factoring in other inputs such as adoption, customer interest/commitment, and other factors. 
- GA dates for ROSA-HyperShift are on track, tracked in milestones M1-7 (have a look at https://issues.redhat.com/browse/OCPPLAN-5771

Epic Goal*

The goal is to split client certificate trust chains from the global Hypershift root CA.

 
Why is this important? (mandatory)

This is important to:

  • assure a workload can be run on any kind of OCP flavor
  • reduce the blast radius in case of a sensitive material leak
  • separate trust to allow more granular control over client certificate authentication

 
Scenarios (mandatory) 

Provide details for user scenarios including actions to be performed, platform specifications, and user personas.  

  1. I would like to be able to run my workloads on any OpenShift-like platform.
    My workloads allow components to authenticate using client certificates based
    on a trust bundle that I am able to retrieve from the cluster.
  1. I don't want my users to have access to any CA bundle that would allow them
    to trust a random certificate from the cluster for client certificate authentication.

 
Dependencies (internal and external) (mandatory)

Hypershift team needs to provide us with code reviews and merge the changes we are to deliver

Contributing Teams(and contacts) (mandatory) 

  • Development - OpenShift Auth, Hypershift
  • Documentation -OpenShift Auth Docs team
  • QE - OpenShift Auth QE
  • PX - I have no idea what PX is
  • Others - others

Acceptance Criteria (optional)

The serviceaccount CA bundle automatically injected to all pods cannot be used to authenticate any client certificate generated by the control-plane.

Drawbacks or Risk (optional)

Risk: there is a throbbing time pressure as this should be delivered before first stable Hypershift release

Done - Checklist (mandatory)

  • CI Testing -  Basic e2e automationTests are merged and completing successfully
  • Documentation - Content development is complete.
  • QE - Test scenarios are written and executed successfully.
  • Technical Enablement - Slides are complete (if requested by PLM)
  • Engineering Stories Merged
  • All associated work items with the Epic are closed
  • Epic status should be “Release Pending” 

Feature Overview (aka. Goal Summary)  

The MCO should properly report its state in a way that's consistent and able to be understood by customers, troubleshooters, and maintainers alike. 

Some customer cases have revealed scenarios where the MCO state reporting is misleading and therefore could be unreliable to base decisions and automation on.

In addition to correcting some incorrect states, the MCO will be enhanced for a more granular view of update rollouts across machines.

The MCO should properly report its state in a way that's consistent and able to be understood by customers, troubleshooters, and maintainers alike. 

For this epic, "state" means "what is the MCO doing?" – so the goal here is to try to make sure that it's always known what the MCO is doing. 

This includes: 

  • Conditions
  • Some Logging 
  • Possibly Some Events 

While this probably crosses a little bit into the "status" portion of certain MCO objects, as some state is definitely recorded there, this probably shouldn't turn into a "better status reporting" epic.  I'm interpreting "status" to mean "how is it going" so status is maybe a "detail attached to a state". 

 

Exploration here: https://docs.google.com/document/d/1j6Qea98aVP12kzmPbR_3Y-3-meJQBf0_K6HxZOkzbNk/edit?usp=sharing

 

https://docs.google.com/document/d/17qYml7CETIaDmcEO-6OGQGNO0d7HtfyU7W4OMA6kTeM/edit?usp=sharing

 

The current property description is:

configuration represents the current MachineConfig object for the machine config pool.

But in a 4.12.0-ec.4 cluster, the actual semantics seem to be something closer to "the most recent rendered config that we completely leveled on". We should at least update the godocs to be more specific about the intended semantics. And perhaps consider adjusting the semantics?

Complete Epics

This section includes Jira cards that are linked to an Epic, but the Epic itself is not linked to any Feature. These epics were completed when this image was assembled

Epic Goal

  • Update OpenShift components that are owned by the Builds + Jenkins Team to use Kubernetes 1.25

Why is this important?

  • Our components need to be updated to ensure that they are using the latest bug/CVE fixes, features, and that they are API compatible with other OpenShift components.

Acceptance Criteria

  • Existing CI/CD tests must be passing

This is epic tracks "business as usual" requirements / enhancements / bug fixing of Insights Operator.

Today the links point at a rule-scoped page, but that page lacks information about recommended resolution.  You can click through by cluster ID to your specific cluster and get that recommendation advice, but it would be more convenient and less confusing for customers if we linked directly to the cluster-scoped recommendation page.

We can implement by updating the template here to be:

fmt.Sprintf("https://console.redhat.com/openshift/insights/advisor/clusters/%s?first=%s%%7C%s", clusterID, ruleIDStr, rec.ErrorKey)

or something like that.

 

unknowns

request is clear, solution/implementation to be further clarified

This epic contains all the Dynamic Plugins related stories for OCP release-4.11 

Epic Goal

  • Track all the stories under a single epic

Acceptance Criteria

  •  

This story only covers API components. We will create a separate story for other utility functions.

Today we are generating documentation for Console's Dynamic Plugin SDK in
frontend/packages/dynamic-plugin-sdk. We are missing ts-doc for a set of hooks and components.

We are generating the markdown from the dynamic-plugin-sdk using

yarn generate-doc

Here is the list of the API that the dynamic-plugin-sdk is exposing:

https://gist.github.com/spadgett/0ddefd7ab575940334429200f4f7219a

Acceptance Criteria:

  • Add missing jsdocs for the API that dynamic-plugin-sdk exposes

Out of Scope:

  • This does not include work for integrating the API docs into the OpenShift docs
  • This does not cover other public utilities, only components.

This epic contains all the Dynamic Plugins related stories for OCP release-4.12

Epic Goal

  • Track all the stories under a single epic

Acceptance Criteria

when defining two proxy endpoints, 
apiVersion: console.openshift.io/v1alpha1
kind: ConsolePlugin
metadata:
...
name: forklift-console-plugin
spec:
displayName: Console Plugin Template
proxy:

  • alias: forklift-inventory
    authorize: true
    service:
    name: forklift-inventory
    namespace: konveyor-forklift
    port: 8443
    type: Service
  • alias: forklift-must-gather-api
    authorize: true
    service:
    name: forklift-must-gather-api
    namespace: konveyor-forklift
    port: 8443
    type: Service

service:
basePath: /
I get two proxy endpoints
/api/proxy/plugin/forklift-console-plugin/forklift-inventory
and
/api/proxy/plugin/forklift-console-plugin/forklift-must-gather-api

but both proxy to the `forklift-must-gather-api` service

e.g.
curl to:
[server url]/api/proxy/plugin/forklift-console-plugin/forklift-inventory
will point to the `forklift-must-gather-api` service, instead of the `forklift-inventory` service

We neither use nor support static plugin nav extensions anymore so we should remove the API in the static plugin SDK and get rid of related cruft in our current nav components.

 

AC: Remove static plugin nav extensions code. Check the navigation code for any references to the old API.

During the development of https://issues.redhat.com/browse/CONSOLE-3062, it was determined additional information is needed in order to assist a user when troubleshooting a Failed plugin (see https://github.com/openshift/console/pull/11664#issuecomment-1159024959). As it stands today, there is no data available to the console to relay to the user regarding why the plugin Failed. Presumably, a message should be added to NotLoadedDynamicPlugin to address this gap.

 

AC: Add `message` property to NotLoadedDynamicPluginInfo type.

`@openshift-console/plugin-shared` (NPM) is a package that will contain shared components that can be upversioned separately by the Plugins so they can keep core compatibility low but upversion and support more shared components as we need them.

This isn't documented today. We need to do that.

Acceptance Criteria

  • Add a note in the "SDK packages" section of the README about the existence of this package and it's purpose
    • The purpose of being a static utility delivery library intended not to be tied to OpenShift Console versions and compatible with multiple version of OpenShift Console

We should have a global notification or the `Console plugins` page (e.g., k8s/cluster/operator.openshift.io~v1~Console/cluster/console-plugins) should alert users when console operator `spec.managementState` is `Unmanaged` as changes to `enabled` for plugins will have no effect.

The console has good error boundary components that are useful for dynamic plugin.
Exposing them will enable the plugins to get the same look and feel of handling react errors as console
The minimum requirement right now is to expose the ErrorBoundaryFallbackPage component from
https://github.com/openshift/console/blob/master/frontend/packages/console-shared/src/components/error/fallbacks/ErrorBoundaryFallbackPage.tsx

The extension `console.dashboards/overview/detail/item` doesn't constrain the content to fit the card.

The details-card has an expectation that a <dd> item will be the last item (for spacing between items). Our static details-card items use a component called 'OverviewDetailItem'. This isn't enforced in the extension and can cause undesired padding issues if they just do whatever they want.

I feel our approach here should be making the extension take the props of 'OverviewDetailItem' where 'children' is the new 'component'.

Acceptance Criteria:

  • Deprecate the old extension (in docs, with date/stamp)
  • Make a new extension that applies a stricter type
  • Include this new extension next to the old one (with the error boundary around it)

Currently the ConsolePlugins API version is v1alpha1. Since we are going GA with dynamic plugins we should be creating a v1 version.

This would require updates in following repositories:

  1. openshift/api (add the v1 version and generate a new CRD)
  2. openshift/client-go (picku the changes in the openshift/api repo and generate clients & informers for the new v1 version)
  3. openshift/console-operator repository will using both the new v1 version and v1alpha1 in code and manifests folder.

AC:

  • both v1 and v1alpha1 ConsolePlugins should be passed to the console-config.yaml when the plugins are enabled and present on the cluster.

 

NOTE: This story does not include the conversion webhook change which will be created as a follow on story

To align with https://github.com/openshift/dynamic-plugin-sdk, plugin metadata field dependencies as well as the @console/pluginAPI entry contained within should be made optional.

If a plugin doesn't declare the @console/pluginAPI dependency, the Console release version check should be skipped for that plugin.

Move `frontend/public/components/nav` to `packages/console-app/src/components/nav` and address any issues resulting from the move.

There will be some expected lint errors relating to cyclical imports. These will require some refactoring to address.

Based on API review CONSOLE-3145, we have decided to deprecate the following APIs:

  • useAccessReviewAllowed (use useAccessReview instead)
  • useSafetyFirst

cc Andrew Ballantyne Bryan Florkiewicz 

Currently our `api.md` does not generate docs with "tags" (aka `@deprecated`) – we'll need to add that functionality to the `generate-doc.ts` script. See the code that works for `console-extensions.md`

Following https://coreos.slack.com/archives/C011BL0FEKZ/p1650640804532309, it would be useful for us (network observability team) to have access to ResourceIcon in dynamic-plugin-sdk.

Currently ResourceLink is exported but not ResourceIcon

 

AC:

  • Require the ResourceIcon  from public to dynamic-plugin-sdk
  • Add the component to the dynamic-demo-plugin
  • Add a CI test to check for the ResourceIcon component

 

This epic contains all the OLM related stories for OCP release-4.12

Epic Goal

  • Track all the stories under a single epic

This enhancement Introduces support for provisioning and upgrading heterogenous architecture clusters in phases.

 

We need to scan through the compute nodes and build a set of supported architectures from those. Each node on the cluster has a label for architecture: e.g. `kuberneties.io/arch:arm64`, `kubernetes.io/arch:amd64` etc. Based on the set of supported architectures console will need to surface only those operators in the Operator Hub, which are supported on our Nodes. Each operator's PackageManifest contains a labels that indicates whats the operator's supported architecture, e.g.  `operatorframework.io/arch.s390x: supported`. An operator can be supported on multiple architectures

AC:

  1. Implement logic in the console's backend to read the set of architecture types from console-config.yaml and set it as a SERVER_FLAG.nodeArchitectures (Change similar to https://github.com/openshift/console/commit/39aabe171a2e89ed3757ac2146d252d087fdfd33)
  2. In Operator hub render only operators that are support on any given node, based on the SERVER_FLAG.nodeArchitectures field implemented in CONSOLE-3242.

 

OS and arch filtering: https://github.com/openshift/console/blob/2ad4e17d76acbe72171407fc1c66ca4596c8aac4/frontend/packages/operator-lifecycle-manager/src/components/operator-hub/operator-hub-items.tsx#L49-L86

 

@jpoulin is good to ask about heterogeneous clusters.

This enhancement Introduces support for provisioning and upgrading heterogenous architecture clusters in phases.

 

We need to scan through the compute nodes and build a set of supported architectures from those. Each node on the cluster has a label for architecture: e.g. kubernetes.io/arch=arm64, kubernetes.io/arch=amd64 etc. Based on the set of supported architectures console will need to surface only those operators in the Operator Hub, which are supported on our Nodes.

 

AC: 

  1. Implement logic in the console-operator that will scan though all the nodes and build a set of all the architecture types that the cluster nodes run on and pass it to the console-config.yaml
  2. Add unit and e2e test cases in the console-operator repository.

 

@jpoulin is good to ask about heterogeneous clusters.

An epic we can duplicate for each release to ensure we have a place to catch things we ought to be doing regularly but can tend to fall by the wayside.

As a developer, I want to be able to clean up the css markup after making the css / scss changes required for dark mode and remove any old unused css / scss content. 

 

Acceptance criteria:

  • Remove any unused scss / css content after revamping for dark mode

Epic Goal

  • Enable OpenShift IPI Installer to deploy OCP to a shared VPC in GCP.
  • The host project is where the VPC and subnets are defined. Those networks are shared to one or more service projects.
  • Objects created by the installer are created in the service project where possible. Firewall rules may be the only exception.
  • Documentation outlines the needed minimal IAM for both the host and service project.

Why is this important?

  • Shared VPC's are a feature of GCP to enable granular separation of duties for organizations that centrally manage networking but delegate other functions and separation of billing. This is used more often in larger organizations where separate teams manage subsets of the cloud infrastructure. Enterprises that use this model would also like to create IPI clusters so that they can leverage the features of IPI. Currently organizations that use Shared VPC's must use UPI and implement the features of IPI themselves. This is repetative engineering of little value to the customer and an increased risk of drift from upstream IPI over time. As new features are built into IPI, organizations must become aware of those changes and implement them themselves instead of getting them "for free" during upgrades.

Scenarios

  1. Deploy cluster(s) into service project(s) on network(s) shared from a host project.

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

User Story:

As a user, I want to be able to:

  • skip creating service accounts in Terraform when using passthrough credentialsMode.
  • pass the installer service account to Terraform to be used as the service account for instances when using passthrough credentialsMode.

so that I can achieve

  • creating an IPI cluster using Shared VPC networks using a pre-created service account with the necessary permissions in the Host Project.

Acceptance Criteria:

Description of criteria:

  • Upstream documentation
  • Point 1
  • Point 2
  • Point 3

(optional) Out of Scope:

Detail about what is specifically not being delivered in the story

Engineering Details:

1. Proposed title of this feature request
Basic authentication for Helm Chart repository in helmchartrepositories.helm.openshift.io CRD.

2. What is the nature and description of the request?
As of v4.6.9, the HelmChartRepository CRD only supports client TLS authentication through spec.connectionConfig.tlsClientConfig.

3. Why do you need this? (List the business requirements here)
Basic authentication is widely used by many chart repositories managers (Nexus OSS, Artifactory, etc.)
Helm CLI also supports them with the helm repo add command.
https://helm.sh/docs/helm/helm_repo_add/

4. How would you like to achieve this? (List the functional requirements here)
Probably by extending the CRD:

spec:
connectionConfig:
username: username
password:
secretName: secret-name

The secret namespace should be openshift-config to align with the tlsClientConfig behavior.

5. For each functional requirement listed in question 4, specify how Red Hat and the customer can test to confirm the requirement is successfully implemented.
Trying to pull helm charts from remote private chart repositories that has disabled anonymous access and offers basic authentication.
E.g.: https://github.com/sonatype/docker-nexus

Owner: Architect:

Story (Required)

As an OCP user I will like to be able to install helm charts from repos added to ODC with basic authentication fields populated

Background (Required)

We need to support helm installs for Repos that have the basic authentication secret name and namespace.

Glossary

Out of scope

Updating the ProjectHelmChartRepository CRD, already done in diff story
Supporting the HelmChartRepository CR, this feature will be scoped first to project/namespace scope repos.

In Scope

<Defines what is included in this story>

Approach(Required)

If the new fields for basic auth are set in the repo CR then use those credentials when making API calls to helm to install/upgrade charts. We will error out if user logged in does not have access to the secret referenced by Repo CR. If basic auth fields are not present we assume is not an authenticated repo.

Dependencies

Nonet

Edge Case

NA

Acceptance Criteria

I can list, install and update charts on authenticated repos from ODC
Needs Documentation both upstream and downstream
Needs new unit test covering repo auth

INVEST Checklist

Dependencies identified
Blockers noted and expected delivery timelines set
Design is implementable
Acceptance criteria agreed upon
Story estimated

Legend

Unknown
Verified
Unsatisfied

Epic Goal

  • Support manifest lists by image streams and the integrated registry. Clients should be able to pull/push manifests lists from/into the integrated registry. They also should be able to import images via `oc import-image` and them pull them from the internal registry.

Why is this important?

  • Manifest lists are becoming more and more popular. Customers want to mirror manifest lists into the registry and be able to pull them by digest.

Scenarios

  1. Manifest lists can be pushed into the integrated registry
  2. Imported manifests list can be pulled from the integrated registry
  3. Image triggers work with manifest lists

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • Existing functionality shouldn't change its behavior

Dependencies (internal and external)

  1. ...

Previous Work (Optional)

  1. https://github.com/openshift/enhancements/blob/master/enhancements/manifestlist/manifestlist-support.md

Open questions

  1. Can we merge creation of images without having the pruner?

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

ACCEPTANCE CRITERIA

  • The ImageStream object should contain a new flag indicating that it refers to a manifest list
  • openshift-controller-manager uses new openshift/api code to import image streams
  • changing `importMode` of an image stream tag triggers a new import (i.e. updates generation in the tag spec)

NOTES

This is a follow up Epic to https://issues.redhat.com/browse/MCO-144, which aimed to get in-place upgrades for Hypershift. This epic aims to capture additional work to focus on using CoreOS/OCP layering into Hypershift, which has benefits such as:

 

 - removing or reducing the need for ignition

 - maintaining feature parity between self-driving and managed OCP models

 - adding additional functionality such as hotfixes

Right now in https://github.com/openshift/hypershift/pull/1258 you can only perform one upgrade at a time. Multiple upgrades will break due to controller logic

 

Properly create logic to handle manifest creation/updates and deletion, so the logic is more bulletproof

Currently not implemented, and will require the MCD hypershift mode to be adjusted to handle disruptionless upgrades like regular MCD

We plan to build Ironic Container Images using RHEL9 as base image in OCP 4.12

This is required because the ironic components have abandoned support for CentOS Stream 8 and Python 3.6/3.7 upstream during the most recent development cycle that will produce the stable Zed release, in favor of CentOS Stream 9 and Python 3.8/3.9

More info on RHEL8 to RHEL9 transition in OCP can be found at https://docs.google.com/document/d/1N8KyDY7KmgUYA9EOtDDQolebz0qi3nhT20IOn4D-xS4

Epic Goal

  • We need the installer to accept a LB type from user and then we could set type of LB in the following object.
    oc get ingress.config.openshift.io/cluster -o yaml
    Then we can fetch info from this object and reconcile the operator to have the NLB changes reflected.

 

This is an API change and we will consider this as a feature request.

Why is this important?

https://issues.redhat.com/browse/NE-799 Please check this for more details

 

Scenarios

https://issues.redhat.com/browse/NE-799 Please check this for more details

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. installer
  2. ingress operator

Previous Work (Optional):

 No

Open questions::

N/A

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

We need tests for the ovirt-csi-driver and the cluster-api-provider-ovirt. These tests help us to

  • minimize bugs,
  • reproduce and fix them faster and
  • pin down current behavior of the driver

Also, having dedicated tests on lower levels with a smaller scope (unit, integration, ...) has the following benefits:

  • fast feedback cycle (local test execution)
  • developer in-code documentation
  • easier onboarding for new contributers
  • lower resource consumption
The details of this Jira Card are restricted (Red Hat Employee and Contractors only)

Description

As a user, In the topology view, I would like to be updated intuitively if any of the deployments have reached quota limits

Acceptance Criteria

  1. Show a yellow border around deployments if any of the deployments have reached the quota limit
  2. For deployments, if there are any errors associated with resource limits or quotas, include a warning alert in the side panel.
    1. If we know resource limits are the cause, include link to Edit resource limits
    2. If we know pod count is the cause, include a link to Edit pod count

Additional Details:

 

Refer below for more details 

Description

As a user, I would like to be informed in an intuitive way,  when quotas have been reached in a namespace

Acceptance Criteria

  1. Show an alert banner on the Topology and add page for this project/namespace when there is a RQ (Resource Quota) / ACRQ (Applied Cluster Resource Quota) issue
    PF guideline: https://www.patternfly.org/v4/components/alert/design-guidelines#using-alerts 
  2. The above alert should have a CTA link to the search page with all RQ, ACRQ and if there is just one show the details page for the same
  3. For RQ, ACRQ list view show one more column called status with details as shown in the project view.

Additional Details:

 

Refer below for more details 

Goal

Provide a form driven experience to allow cluster admins to manage the perspectives to meet the ACs below.

Problem:

We have heard the following requests from customers and developer advocates:

  • Some admins do not want to provide access to the Developer Perspective from the console
  • Some admins do not want to provide non-priv users access to the Admin Perspective from the console

Acceptance criteria:

  1. Cluster administrator is able to "hide" the admin perspective for non-priv users
  2. Cluster administrator is able to "hide" the developer perspective for all users
  3. Be user that User Preferences for individual users behaves appropriately. If only one perspective is available, the perspective switcher is not needed.

Dependencies (External/Internal):

Design Artifacts:

Exploration:

Note:

Description

As an admin, I want to hide the admin perspective for non-privileged users or hide the developer perspective for all users

Based on the https://issues.redhat.com/browse/ODC-6730 enhancement proposal, it is required to extend the console configuration CRD to enable the cluster admins to configure this data in the console resource

Acceptance Criteria

  1. Extend the "customization" spec type definition for the CRD in the openshift/api project

Additional Details:

Previous customization work:

  1. https://issues.redhat.com/browse/ODC-5416
  2. https://issues.redhat.com/browse/ODC-5020
  3. https://issues.redhat.com/browse/ODC-5447

Description

As an admin, I want to hide user perspective(s) based on the customization.

Acceptance Criteria

  1. Hide perspective(s) based on the customization
    1. When the admin perspective is disabled -> we hide the admin perspective for all unprivileged users
    2. When the dev perspective is disabled -> we hide the dev perspective for all users
  2. When all the perspectives are hidden from a user or for all users, show the Admin perspective by default

Additional Details:

Description

As an admin, I should be able to see a code snippet that shows how to add user perspectives

Based on the https://issues.redhat.com/browse/ODC-6732 enhancement proposal, the cluster admin can add user perspectives

To support the cluster-admin to configure the perspectives correctly, the developer console should provide a code snippet for the customization of yaml resource (Console CRD).

Customize Perspective Enhancement PR: https://github.com/openshift/enhancements/pull/1205

Acceptance Criteria

  1. When the admin opens the Console CRD there is a snippet in the sidebar which provides a default YAML which supports the admin to add user perspectives

Additional Details:

Previous work:

  1. https://issues.redhat.com/browse/ODC-5080
  2. https://issues.redhat.com/browse/ODC-5449

Description

As an admin, I want to be able to use a form driven experience  to hide user perspective(s)

Acceptance Criteria

  1. Add checkboxes with the options
    1. Hide "Administrator" perspective for non-privileged users
    2.  Hide "Developer" perspective for all users
  2. The console configuration CR should be updated as per the selected option

Additional Details:

Problem:

Customers don't want their users to have access to some/all of the items which are available in the Developer Catalog.  The request is to change access for the cluster, not per user or persona.

Goal:

Provide a form driven experience to allow cluster admins easily disable the Developer Catalog, or one or more of the sub catalogs in the Developer Catalog.

Why is it important?

Multiple customer requests.

Acceptance criteria:

  1. As a cluster admin, I can hide/disable access to the developer catalog for all users across all namespaces.
  2. As a cluster admin, I can hide/disable access to a specific sub-catalog in the developer catalog for all users across all namespaces.
    1. Builder Images
    2. Templates
    3. Helm Charts
    4. Devfiles
    5. Operator Backed

Notes

We need to consider how this will work with subcatalogs which are installed by operators: VMs, Event Sources, Event Catalogs, Managed Services, Cloud based services

Dependencies (External/Internal):

Design Artifacts:

Exploration:

Note:

Description

As an admin, I want to hide sub-catalogs in the developer catalog or hide the developer catalog completely based on the customization.

Acceptance Criteria

  1. Hide all links to the sub-catalog(s) from the add page, topology actions, empty states, quick search, and the catalog itself
  2. The sub-catalog should show Not found if the user opens the sub-catalog directly
  3. The feature should not be hidden if a sub-catalog option is disabled

Additional Details:

Description

As an admin, I want to hide/disable access to specific sub-catalogs in the developer catalog or the complete dev catalog for all users across all namespaces.

Based on the https://issues.redhat.com/browse/ODC-6732 enhancement proposal, it is required to extend the console configuration CRD to enable the cluster admins to configure this data in the console resource

Acceptance Criteria

Extend the "customization" spec type definition for the CRD in the openshift/api project

Additional Details:

Previous customization work:

  1. https://issues.redhat.com/browse/ODC-5416
  2. https://issues.redhat.com/browse/ODC-5020
  3. https://issues.redhat.com/browse/ODC-5447

Description

As a cluster-admin, I should be able to see a code snippet that shows how to enable sub-catalogs or the entire dev catalog.

Based on the https://issues.redhat.com/browse/ODC-6732 enhancement proposal, the cluster admin can add sub-catalog(s)  from the Developer Catalog or the Dev catalog as a whole.

To support the cluster-admin to configure the sub-catalog list correctly, the developer console should provide a code snippet for the customization yaml resource (Console CRD).

Acceptance Criteria

  1. When the admin opens the Console CRD there is a snippet in the sidebar which provides a default YAML, which supports the admin to add sub-catalogs/the whole dev catalog

Additional Details:

Previous work:

  1. https://issues.redhat.com/browse/ODC-5080
  2. https://issues.redhat.com/browse/ODC-5449

Epic Goal

  • Facilitate the transition to for OLM and content to PSA enforcing the `restricted` security profile
  • Use the label synch'er to enforce the required security profile
  • Current content should work out-of-the-box as is
  • Upgrades should not be blocked

Why is this important?

  • PSA helps secure the cluster by enforcing certain security restrictions that the pod must meet to be scheduled
  • 4.12 will enforce the `restricted` profile, which will affect the deployment of operators in `openshift-*` namespaces 

Scenarios

  1. Admin installs operator in an `openshift-*`namespace that is not managed by the label syncher -> label should be applied
  2. Admin installs operator in an `openshift-*` namespace that has a label asking the label syncher to not reconcile it -> nothing changes

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • Done only downstream
  • Transition documentation written and reviewed

Dependencies (internal and external)

  1. label syncher (still searching for the link)

Open questions::

  1. Is this only for openshift-* namespaces?

Resources

Stakeholders

  • Daniel S...?

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

As an admin, I would like openshift-* namespaces with an operator to be labeled with security.openshift.io/scc.podSecurityLabelSync=true to ensure the continual functioning of operators without manual intervention. The label should only be applied to openshift-* namespaces with an operator (the presence of a ClusterServiceVersion resource) IF the label is not already present. This automation will help smooth functioning of the cluster and avoid frivolous operational events.

Context: As part of the PSA migration period, Openshift will ship with the "label sync'er" - a controller that will automatically adjust PSA security profiles in response to the workloads present in the namespace. We can assume that not all operators (produced by Red Hat, the community or ISVs) will have successfully migrated their deployments in response to upstream PSA changes. The label sync'er will sync, by default, any namespace not prefixed with "openshift-", of which an explicit label (security.openshift.io/scc.podSecurityLabelSync=true) is required for sync.

A/C:
 - OLM operator has been modified (downstream only) to label any unlabelled "openshift-" namespace in which a CSV has been created
 - If a labeled namespace containing at least one non-copied csv becomes unlabelled, it should be relabelled 
 - The implementation should be done in a way to eliminate or minimize subsequent downstream sync work (it is ok to make slight architectural changes to the OLM operator in the upstream to enable this)

The details of this Jira Card are restricted (Red Hat Employee and Contractors only)

As a SRE, I want hypershift operator to expose a metric when hosted control plane is ready. 

This should allow SRE to tune (or silence) alerts occurring while the hosted control plane is spinning up. 

 

 

The details of this Jira Card are restricted (Red Hat Employee and Contractors only)

The Kube APIServer has a sidecar to output audit logs. We need similar sidecars for other APIServers that run on the control plane side. We also need to pass the same audit log policy that we pass to the KAS to these other API servers.

This epic tracks network tooling improvements for 4.12

New framework and process should be developed to make sharing network tools with devs, support and customers convenient. We are going to add some tools for ovn troubleshooting before ovn-k goes default, also some tools that we got from customer cases, and some more to help analyze and debug collected logs based on stable must-gather/sosreport format we get now thanks to 4.11 Epic.

Our estimation for this Epic is 1 engineer * 2 Sprints

WHY:
This epic is important to help improve the time it takes our customers and our team to understand an issue within the cluster.
A focus of this epic is to develop tools to quickly allow debugging of a problematic cluster. This is crucial for the engineering team to help us scale. We want to provide a tool to our customers to help lower the cognitive burden to get at a root cause of an issue.

 

Alert if any of the ovn controllers disconnected for a period of time from the southbound database using metric ovn_controller_southbound_database_connected.

The metric updates every 2 minutes so please be mindful of this when creating the alert.

If the controller is disconnected for 10 minutes, fire an alert.

DoD: Merged to CNO and tested by QE

OCP/Telco Definition of Done
Epic Template descriptions and documentation.

<--- Cut-n-Paste the entire contents of this description into your new Epic --->

Epic Goal

  • Come up with a consistent way to detect node down on OCP and hypershift. Current mechanism for OCP (probe port 9) does not work for hypershift, meaning, hypershift node down detection will be longer (~40 secs). We should aim to have a common mechanism for both. As well, we should consider alternatives to the probing port 9. Perhaps BFD, or other detection.
  • Get clarification on node down detection times. Some customers have (apparently) asked for detection on the order of 100ms, recommendation is to use multiple Egress IPs, so this may not be a hard requirement. Need clarification from PM/Customers.

Why is this important?

Scenarios

  1. ...

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

Add sock proxy to cluster-network-operator so egressip can use grpc to reach worker nodes.
 
With the introduction of grpc as means for determining the state of a given egress node, hypershift should
be able to leverage socks proxy and become able to know the state of each egress node.
 
References relevant to this work:
1281-network-proxy
[+https://coreos.slack.com/archives/C01C8502FMM/p1658427627751939+]
[+https://github.com/openshift/hypershift/pull/1131/commits/28546dc587dc028dc8bded715847346ff99d65ea+]

This Epic is here to track the rebase we need to do when kube 1.25 is GA https://www.kubernetes.dev/resources/release/

Keeping this in mind can help us plan our time better. ATTOW GA is planned for August 23

https://docs.google.com/document/d/1h1XsEt1Iug-W9JRheQas7YRsUJ_NQ8ghEMVmOZ4X-0s/edit --> this is the link for rebase help

Incomplete Epics

This section includes Jira cards that are linked to an Epic, but the Epic itself is not linked to any Feature. These epics were not completed when this image was assembled

Place holder epic to track spontaneous task which does not deserve its own epic.

AWS has a hard limit of 100 OIDC providers globally. 
Currently each HostedCluster created by e2e creates its own OIDC provider, which results in hitting the quota limit frequently and causing the tests to fail as a result.

 
DOD:
Only a single OIDC provider should be created and shared between all e2e HostedClusters. 

Once the HostedCluster and NodePool gets stopped using PausedUntil statement, the awsprivatelink controller will continue reconciling.

 

How to test this:

  • Deploy a private cluster
  • Put it in pause once deployed
  • Delete the AWSEndPointService and the Service from the HCP namespace
  • And wait for a reconciliation, the result it's that they should not be recreated
  • Unpause it and wait for recreation.

AC:

We have connectDirectlyToCloudAPIs flag in konnectiviy socks5 proxy to dial directly to cloud providers without going through konnectivity.

This introduce another path for exception https://github.com/openshift/hypershift/pull/1722

We should consolidate both by keep using connectDirectlyToCloudAPIs until there's a reason to not.

 

DoD:

At the moment if the input etcd kms encryption (key and role) is invalid we fail transparently.

We should check that both key and role are compatible/operational for a given cluster and fail in a condition otherwise

Changes made in METAL-1 open up opportunities to improve our handling of images by cleaning up redundant code that generates extra work for the user and extra load for the cluster.

We only need to run the image cache DaemonSet if there is a QCOW URL to be mirrored (effectively this means a cluster installed with 4.9 or earlier). We can stop deploying it for new clusters installed with 4.10 or later.

Currently, the image-customization-controller relies on the image cache running on every master to provide the shared hostpath volume containing the ISO and initramfs. The first step is to replace this with a regular volume and an init container in the i-c-c pod that extracts the images from machine-os-images. We can use the copy-metal -image-build flag (instead of -all used in the shared volume) to provide only the required images.

Once i-c-c has its own volume, we can switch the image extraction in the metal3 Pod's init container to use the -pxe flag instead of -all.

The machine-os-images init container for the image cache (not the metal3 Pod) can be removed. The whole image cache deployment is now optional and need only be started if provisioningOSDownloadURL is set (and in fact should be deleted if it is not).

Epic Goal

  • To improve the reliability of disk cleaning before installation and to provide the user with sufficient warning regarding the consequences of the cleaning

Why is this important?

  • Insufficient cleaning can lead to installation failure
  • Insufficient warning can lead to complaints of unexpected data loss

Scenarios

  1.  

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

Description of the problem:

Cluster Installation fail if installation disk has lvm on raid:

Host: test-infra-cluster-3cc862c9-master-0, reached installation stage Failed: failed executing nsenter [--target 1 --cgroup --mount --ipc --pid -- mdadm --stop /dev/md0], Error exit status 1, LastOutput "mdadm: Cannot get exclusive access to /dev/md0:Perhaps a running process, mounted filesystem or active volume group?" 

How reproducible:

100%

Steps to reproduce:

1. Install a cluster while master nodes has disk with LVM on RAID (reproduces using test: https://gitlab.cee.redhat.com/ocp-edge-qe/kni-assisted-installer-auto/-/blob/master/api_tests/test_disk_cleanup.py#L97)

Actual results:

Installation failed

Expected results:

Installation success

Description of the problem:
When running assisted-installer on a machine where is more than one volume group per physical volume. Only the first volume group will be cleaned up. This leads to problems later and will lead to errors such as

Failed - failed executing nsenter [--target 1 --cgroup --mount --ipc --pid -- pvremove /dev/sda -y -ff], Error exit status 5, LastOutput "Can't open /dev/sda exclusively. Mounted filesystem? 

How reproducible:

Set up a VM with more than one volume group per physical volume. As an example, look at the following sample from a customer cluster.

List block devices
/usr/bin/lsblk -o NAME,MAJ:MIN,SIZE,TYPE,FSTYPE,KNAME,MODEL,UUID,WWN,HCTL,VENDOR,STATE,TRAN,PKNAME
NAME              MAJ:MIN   SIZE TYPE FSTYPE      KNAME MODEL            UUID                                   WWN                HCTL       VENDOR   STATE   TRAN PKNAME
loop0               7:0   125.9G loop xfs         loop0                  c080b47b-2291-495c-8cc0-2009ebc39839                                                       
loop1               7:1   885.5M loop squashfs    loop1                                                                                                             
sda                 8:0   894.3G disk             sda   INTEL SSDSC2KG96                                        0x55cd2e415235b2db 1:0:0:0    ATA      running sas  
|-sda1              8:1     250M part             sda1                                                          0x55cd2e415235b2db                                  sda
|-sda2              8:2     750M part ext2        sda2                   3aa73c72-e342-4a07-908c-a8a49767469d   0x55cd2e415235b2db                                  sda
|-sda3              8:3      49G part xfs         sda3                   ffc3ccfe-f150-4361-8ae5-f87b17c13ac2   0x55cd2e415235b2db                                  sda
|-sda4              8:4   394.2G part LVM2_member sda4                   Ua3HOc-Olm4-1rma-q0Ug-PtzI-ZOWg-RJ63uY 0x55cd2e415235b2db                                  sda
`-sda5              8:5     450G part LVM2_member sda5                   W8JqrD-ZvaC-uNK9-Y03D-uarc-Tl4O-wkDdhS 0x55cd2e415235b2db                                  sda
  `-nova-instance 253:0     3.1T lvm  ext4        dm-0                   d15e2de6-2b97-4241-9451-639f7b14594e                                          running      sda5
sdb                 8:16  894.3G disk             sdb   INTEL SSDSC2KG96                                        0x55cd2e415235b31b 1:0:1:0    ATA      running sas  
`-sdb1              8:17  894.3G part LVM2_member sdb1                   6ETObl-EzTd-jLGw-zVNc-lJ5O-QxgH-5wLAqD 0x55cd2e415235b31b                                  sdb
  `-nova-instance 253:0     3.1T lvm  ext4        dm-0                   d15e2de6-2b97-4241-9451-639f7b14594e                                          running      sdb1
sdc                 8:32  894.3G disk             sdc   INTEL SSDSC2KG96                                        0x55cd2e415235b652 1:0:2:0    ATA      running sas  
`-sdc1              8:33  894.3G part LVM2_member sdc1                   pBuktx-XlCg-6Mxs-lddC-qogB-ahXa-Nd9y2p 0x55cd2e415235b652                                  sdc
  `-nova-instance 253:0     3.1T lvm  ext4        dm-0                   d15e2de6-2b97-4241-9451-639f7b14594e                                          running      sdc1
sdd                 8:48  894.3G disk             sdd   INTEL SSDSC2KG96                                        0x55cd2e41521679b7 1:0:3:0    ATA      running sas  
`-sdd1              8:49  894.3G part LVM2_member sdd1                   exVSwU-Pe07-XJ6r-Sfxe-CQcK-tu28-Hxdnqo 0x55cd2e41521679b7                                  sdd
  `-nova-instance 253:0     3.1T lvm  ext4        dm-0                   d15e2de6-2b97-4241-9451-639f7b14594e                                          running      sdd1
sr0                11:0     989M rom  iso9660     sr0   Virtual CDROM0   2022-06-17-18-18-33-00                                    0:0:0:0    AMI      running usb  

Now run the assisted installer and try to install an SNO node on this machine, you will find that the installation will fail with a message that indicates that it could not exclusively access /dev/sda

Actual results:

 The installation will fail with a message that indicates that it could not exclusively access /dev/sda

Expected results:

The installation should proceed and the cluster should start to install.

Suspected Cases
https://issues.redhat.com/browse/AITRIAGE-3809
https://issues.redhat.com/browse/AITRIAGE-3802
https://issues.redhat.com/browse/AITRIAGE-3810

Epic Goal

  • Increase success-rate of of our CI jobs
  • Improve debugability / visibility or tests 

Why is this important?

  • Failed presubmit jobs (required or optional) can make an already tested+approved PR to not get in
  • Failed periodic jobs interfere our visibility around stability of features

Description of problem:

check_pkt_length cannot be offloaded without
1) sFlow offload patches in Openvswitch
2) Hardware driver support.

Since 1) will not be done anytime soon. We need a work around for the check_pkt_length issue.

Version-Release number of selected component (if applicable):

4.11/4.12

How reproducible:

Always

Steps to Reproduce:

1. Any flow that has check_pkt_len()
  5-b: Pod -> NodePort Service traffic (Pod Backend - Different Node)
  6-b: Pod -> NodePort Service traffic (Host Backend - Different Node)
  4-b: Pod -> Cluster IP Service traffic (Host Backend - Different Node)
  10-b: Host Pod -> Cluster IP Service traffic (Host Backend - Different Node)
  11-b: Host Pod -> NodePort Service traffic (Pod Backend - Different Node)
  12-b: Host Pod -> NodePort Service traffic (Host Backend - Different Node)   

Actual results:

Poor performance due to upcalls when check_pkt_len() is not supported.

Expected results:

Good performance.

Additional info:

https://docs.google.com/spreadsheets/d/1LHY-Af-2kQHVwtW4aVdHnmwZLTiatiyf-ySffC8O5NM/edit#gid=670206692

OCP/Telco Definition of Done
Epic Template descriptions and documentation.

<--- Cut-n-Paste the entire contents of this description into your new Epic --->

Epic Goal

  • Run OpenShift builds that do not execute as the "root" user on the host node.

Why is this important?

  • OpenShift builds require an elevated set of capabilities to build a container image
  • Builds currently run as root to maintain adequate performance
  • Container workloads should run as non-root from the host's perspective. Containers running as root are a known security risk.
  • Builds currently run as root and require a privileged container. See BUILD-225 for removing the privileged container requirement.

Scenarios

  1. Run BuildConfigs in a multi-tenant environment
  2. Run BuildConfigs in a heightened security environment/deployment

Acceptance Criteria

  • Developers can opt into running builds in a cri-o user namespace by providing an environment variable with a specific value.
  • When the correct environment variable is provided, builds run in a cri-o user namespace, and the build pod does not require the "privileged: true" security context.
  • User namespace builds can pass basic test scenarios for the Docker and Source strategy build.
  • Steps to run unprivileged builds are documented.

Dependencies (internal and external)

  1. Buildah supports running inside a non-privileged container
  2. CRI-O allows workloads to opt into running containers in user namespaces.

Previous Work (Optional):

  1. BUILD-225 - remove privileged requirement for builds.

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

User Story

As a developer building container images on OpenShift
I want to specify that my build should run without elevated privileges
So that builds do not run as root from the host's perspective with elevated privileges

Acceptance Criteria

  • Developers can provide an environment variable to indicate the build should not use privileged containers
  • When the correct env var + value is specified, builds run in a user namespace (non-root on the host)

QE Impact

No QE required for Dev Preview. OpenShift regression testing will verify that existing behavior is not impacted.

Docs Impact

We will need to document how to enable this feature, with sufficient warnings regarding Dev Preview.

PX Impact

This likely warrants an OpenShift blog post, potentially?

Notes

OCP/Telco Definition of Done
Epic Template descriptions and documentation.

<--- Cut-n-Paste the entire contents of this description into your new Epic --->

Epic Goal

  • ...

Why is this important?

Scenarios

  1. ...

Acceptance Criteria

  • CI - MUST be running successfully with tests automated
  • Release Technical Enablement - Provide necessary release enablement details and documents.
  • ...

Dependencies (internal and external)

  1. ...

Previous Work (Optional):

Open questions::

Done Checklist

  • CI - CI is running, tests are automated and merged.
  • Release Enablement <link to Feature Enablement Presentation>
  • DEV - Upstream code and tests merged: <link to meaningful PR or GitHub Issue>
  • DEV - Upstream documentation merged: <link to meaningful PR or GitHub Issue>
  • DEV - Downstream build attached to advisory: <link to errata>
  • QE - Test plans in Polarion: <link or reference to Polarion>
  • QE - Automated tests merged: <link or reference to automated tests>
  • DOC - Downstream documentation merged: <link to meaningful PR>

We have been running into a number of problems with configure-ovs and nodeip-configuration selecting different interfaces in OVNK deployments. This causes connectivity issues, so we need some way to ensure that everything uses the same interface/IP.

Currently configure-ovs runs before nodeip-configuration, but since nodeip-configuration is the source of truth for IP selection regardless of CNI plugin, I think we need to look at swapping that order. That way configure-ovs could look at what nodeip-configuration chose and not have to implement its own interface selection logic.

I'm targeting this at 4.12 because even though there's probably still time to get it in for 4.11, changing the order of boot services is always a little risky and I'd prefer to do it earlier in the cycle so we have time to tease out any issues that arise. We may need to consider backporting the change though since this has been an issue at least back to 4.10.

Goal
Provide an indication that advanced features are used

Problem

Today, customers and RH don't have the information on the actual usage of advanced features.

Why is this important?

  1. Better focus upsell efforts
  2. Compliance information for customers that are not aware they are not using the right subscription

 

Prioritized Scenarios

In Scope
1. Add a boolean variable in our telemetry to mark if the customer is using advanced features (PV encryption, encryption with KMS, external mode). 

Not in Scope

Integrate with subscription watch - will be done by the subscription watch team with our help.

Customers

All

Customer Facing Story
As a compliance manager, I should be able to easily see if all my clusters are using the right amount of subscriptions

What does success look like?

A clear indication in subscription watch for ODF usage (either essential or advanced). 

1. Proposed title of this feature request

  • Request to add a bool variable into telemetry which indicates the usage of any of the advanced feature, like PV encryption or KMS encryption or external mode etc.

2. What is the nature and description of the request?

  • Today, customers and RH don't have the information on the actual usage of advanced features. This feature will help RH to have a better indication on the statistics of customers using the advanced features and focus better on upsell efforts.

3. Why does the customer need this? (List the business requirements here)

  • As a compliance manager, I should be able to easily see if all my clusters are using the right amount of subscriptions.

4. List any affected packages or components.

  • Telemetry

_____________________

Link to main epic: https://issues.redhat.com/browse/RHSTOR-3173

 

Other Complete

This section includes Jira cards that are not linked to either an Epic or a Feature. These tickets were completed when this image was assembled

Description of problem:

When using the agent based instller to zero-touch provision the cluster. If the network bandwidth is low, and the assisted-service or the assisted-service fails to pull the docker image within the timeout. The create-cluster-and-infraenv, apply-host-config, and start-cluster-installation services will be deactivated due to dependency failed. The process will be blocked, and require enable & start the service manually.

Version-Release number of selected component (if applicable):

openshift-install 4.11.0
built from commit 863cd1ea823559116e26de327705ed72ccdede8f
release image quay.io/openshift-release-dev/ocp-release@sha256:300bce8246cf880e792e106607925de0a404484637627edf5f517375517d54a4
release architecture amd64

How reproducible:

Install Openshift with agent based installer with local mirror.

Steps to Reproduce:

1.Stop the local registry or limit the network bandwidth to make assisted-service-pod.service or assisted-service.service fails to started within the 90s timeout.
2.Start the local registry or mannully pull the image on the node0. 3.

Actual results:

When using the agent based instller to zero-touch pprovision  the cluster. If the network bandwidth is low, and the assisted-service or the assisted-service fails to pull the docker image within the timeout. The create-cluster-and-infraenv, apply-host-config, and start-cluster-installation services will be deactivated due to dependency failed. The process will be blocked, and require enable & start the service manually.

Expected results:

Provision start after the assisted-service started.

Additional info:

Given:
assisted-service-pod.service requires assisted-service-db.service assisted-service.service
assisted-service.service BindsTo=assisted-service-pod.service
create-cluster-and-infraenv.service Requires=assisted-service.service and PartOf=assisted-service-pod.service
apply-host-config.service Requires=create-cluster-and-infraenv.service
start-cluster-installation.service Requires=apply-host-config.service
Requires= "Configures requirement dependencies on other units. If this unit gets activated, the units listed here will be activated as well. If one of the other units gets deactivated or its activation fails, this unit will be deactivated."When assisted-service-pod.service starts, assisted-service-db.service and assisted-service.service also be started,
Once assisted-service-pod.service fails to be started, assisted-service.service also fail to be started due to "BindsTo=assisted-service-pod.service".
Then dependency failed for create-cluster-and-infraenv.service due to Requires=assisted-service.service which activation fails, Therefore it will be deactived.
Then dependency failed for apply-host-config.service, due to Requires=create-cluster-and-infraenv.service which activation fails, Therefore it will be deactived.
Then dependency failed for start-cluster-installation.service, due to Requires=apply-host-config.service which activation fails, Therefore it will be deactived.Then assisted-service-pod.service restarts, assisted-service.service and assisted-service-db.service restarts as well, since they are binded to assisted-service-pod.service.
However, create-cluster-and-infraenv.service apply-host-config.service and start-cluster-installation.service was be deactivated, they requires to be activate mannully.Eventually, assisted-service started and hang with waitting for create infraenv. The provisioning is blocked.

Description of problem:

Install a single node cluster on AWS, then enable TechPreview, cause the cluster error. 
The CMA and CAPI CMA shouldn't be on the same port.

Version-Release number of selected component (if applicable):

4.11.9

How reproducible:

always

Steps to Reproduce:

1.Launch 4.11.9 single node cluster on AWS
liuhuali@Lius-MacBook-Pro huali-test % oc get clusterversion
NAME      VERSION   AVAILABLE   PROGRESSING   SINCE   STATUS
version   4.11.9    True        False         34m     Cluster version is 4.11.9
liuhuali@Lius-MacBook-Pro huali-test % oc get co
NAME                                       VERSION   AVAILABLE   PROGRESSING   DEGRADED   SINCE   MESSAGE
authentication                             4.11.9    True        False         False      31m     
baremetal                                  4.11.9    True        False         False      49m     
cloud-controller-manager                   4.11.9    True        False         False      52m     
cloud-credential                           4.11.9    True        False         False      53m     
cluster-autoscaler                         4.11.9    True        False         False      48m     
config-operator                            4.11.9    True        False         False      50m     
console                                    4.11.9    True        False         False      37m     
csi-snapshot-controller                    4.11.9    True        False         False      49m     
dns                                        4.11.9    True        False         False      48m     
etcd                                       4.11.9    True        False         False      47m     
image-registry                             4.11.9    True        False         False      43m     
ingress                                    4.11.9    True        False         False      86s     
insights                                   4.11.9    True        False         False      43m     
kube-apiserver                             4.11.9    True        False         False      43m     
kube-controller-manager                    4.11.9    True        False         False      47m     
kube-scheduler                             4.11.9    True        False         False      44m     
kube-storage-version-migrator              4.11.9    True        False         False      50m     
machine-api                                4.11.9    True        False         False      44m     
machine-approver                           4.11.9    True        False         False      49m     
machine-config                             4.11.9    True        False         False      49m     
marketplace                                4.11.9    True        False         False      48m     
monitoring                                 4.11.9    True        False         False      56s     
network                                    4.11.9    True        False         False      52m     
node-tuning                                4.11.9    True        False         False      49m     
openshift-apiserver                        4.11.9    True        False         False      72s     
openshift-controller-manager               4.11.9    True        False         False      39m     
openshift-samples                          4.11.9    True        False         False      43m     
operator-lifecycle-manager                 4.11.9    True        False         False      49m     
operator-lifecycle-manager-catalog         4.11.9    True        False         False      49m     
operator-lifecycle-manager-packageserver   4.11.9    True        False         False      104s    
service-ca                                 4.11.9    True        False         False      50m     
storage                                    4.11.9    True        False         False      49m     
liuhuali@Lius-MacBook-Pro huali-test % oc get node
NAME                                         STATUS   ROLES           AGE   VERSION
ip-10-0-137-222.us-east-2.compute.internal   Ready    master,worker   53m   v1.24.0+dc5a2fd

2.Enable TechPreview
spec:
  featureSet: TechPreviewNoUpgrade

liuhuali@Lius-MacBook-Pro huali-test % oc edit featuregate                           
featuregate.config.openshift.io/cluster edited

3.Check the cluster
liuhuali@Lius-MacBook-Pro huali-test % oc get pod  -n openshift-cloud-controller-manager
NAME                                            READY   STATUS    RESTARTS       AGE
aws-cloud-controller-manager-5888c85fc6-28tgt   1/1     Running   12 (10m ago)   55m
liuhuali@Lius-MacBook-Pro huali-test % oc get clusterversion                            
NAME      VERSION   AVAILABLE   PROGRESSING   SINCE   STATUS
version   4.11.9    True        False         111m    Error while reconciling 4.11.9: the workload openshift-cluster-machine-approver/machine-approver-capi has not yet successfully rolled out
liuhuali@Lius-MacBook-Pro huali-test % oc get co
NAME                                       VERSION   AVAILABLE   PROGRESSING   DEGRADED   SINCE   MESSAGE
authentication                             4.11.9    False       False         False      9m44s   OAuthServerRouteEndpointAccessibleControllerAvailable: Get "https://oauth-openshift.apps.huliu-aws411arn2.qe.devcluster.openshift.com/healthz": context deadline exceeded (Client.Timeout exceeded while awaiting headers)...
baremetal                                  4.11.9    True        False         False      128m    
cloud-controller-manager                   4.11.9    True        False         False      131m    
cloud-credential                           4.11.9    True        False         False      133m    
cluster-api                                4.11.9    True        False         False      41m     
cluster-autoscaler                         4.11.9    True        False         False      128m    
config-operator                            4.11.9    True        False         False      129m    
console                                    4.11.9    False       True          False      10m     DeploymentAvailable: 0 replicas available for console deployment...
csi-snapshot-controller                    4.11.9    True        False         False      4m52s   
dns                                        4.11.9    True        False         False      128m    
etcd                                       4.11.9    True        False         False      127m    
image-registry                             4.11.9    True        False         False      123m    
ingress                                    4.11.9    True        False         False      3m15s   
insights                                   4.11.9    True        False         False      122m    
kube-apiserver                             4.11.9    True        False         False      123m    
kube-controller-manager                    4.11.9    True        False         False      126m    
kube-scheduler                             4.11.9    True        False         False      124m    
kube-storage-version-migrator              4.11.9    True        False         False      129m    
machine-api                                4.11.9    True        False         False      124m    
machine-approver                           4.11.9    True        False         False      128m    
machine-config                             4.11.9    True        False         False      129m    
marketplace                                4.11.9    True        False         False      128m    
monitoring                                 4.11.9    True        False         False      5m1s    
network                                    4.11.9    True        False         False      131m    
node-tuning                                4.11.9    True        False         False      128m    
openshift-apiserver                        4.11.9    True        False         False      23s     
openshift-controller-manager               4.11.9    True        False         False      118m    
openshift-samples                          4.11.9    True        False         False      122m    
operator-lifecycle-manager                 4.11.9    True        False         False      128m    
operator-lifecycle-manager-catalog         4.11.9    True        False         False      128m    
operator-lifecycle-manager-packageserver   4.11.9    True        False         False      2m43s   
service-ca                                 4.11.9    True        False         False      129m    
storage                                    4.11.9    True        False         False      69m     
liuhuali@Lius-MacBook-Pro huali-test %  

Actual results:

Cluster is broken

CMA is complaining,
 message: '0/1 nodes are available: 1 node(s) didn''t have free ports for the requested
      pod ports. preemption: 0/1 nodes are available: 1 node(s) didn''t have free
      ports for the requested pod ports.'

Expected results:

Cluster should be healthy

Additional info:

Talked with dev here https://coreos.slack.com/archives/GE2HQ9QP4/p1666178083034159?thread_ts=1666176493.224399&cid=GE2HQ9QP4

Must-Gather https://drive.google.com/file/d/1Q7Ddnhbg3Cq4ptBA2ycJnGKK01As1JcF/view?usp=sharing 

If enable TechPreview during installation on single node cluster, the cluster installation failed.

Discovered in the must gather kubelet_service.log from https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-gcp-sdn-upgrade/1586093220087992320

It appears the guard pod names are too long, and being truncated down to where they will collide with those from the other masters.

From kubelet logs in this run:

❯ grep openshift-kube-scheduler-guard-ci-op-3hj6pnwf-4f6ab-lv57z-maste kubelet_service.log
Oct 28 23:58:55.693391 ci-op-3hj6pnwf-4f6ab-lv57z-master-1 kubenswrapper[1657]: E1028 23:58:55.693346    1657 kubelet_pods.go:413] "Hostname for pod was too long, truncated it" podName="openshift-kube-scheduler-guard-ci-op-3hj6pnwf-4f6ab-lv57z-master-1" hostnameMaxLen=63 truncatedHostname="openshift-kube-scheduler-guard-ci-op-3hj6pnwf-4f6ab-lv57z-maste"
Oct 28 23:59:03.735726 ci-op-3hj6pnwf-4f6ab-lv57z-master-0 kubenswrapper[1670]: E1028 23:59:03.735671    1670 kubelet_pods.go:413] "Hostname for pod was too long, truncated it" podName="openshift-kube-scheduler-guard-ci-op-3hj6pnwf-4f6ab-lv57z-master-0" hostnameMaxLen=63 truncatedHostname="openshift-kube-scheduler-guard-ci-op-3hj6pnwf-4f6ab-lv57z-maste"
Oct 28 23:59:11.168082 ci-op-3hj6pnwf-4f6ab-lv57z-master-2 kubenswrapper[1667]: E1028 23:59:11.168041    1667 kubelet_pods.go:413] "Hostname for pod was too long, truncated it" podName="openshift-kube-scheduler-guard-ci-op-3hj6pnwf-4f6ab-lv57z-master-2" hostnameMaxLen=63 truncatedHostname="openshift-kube-scheduler-guard-ci-op-3hj6pnwf-4f6ab-lv57z-maste"

This also looks to be happening for openshift-kube-scheduler-guard, kube-controller-manager-guard, possibly others.

Looks like they should be truncated further to make room for random suffixes in https://github.com/openshift/library-go/blame/bd9b0e19121022561dcd1d9823407cd58b2265d0/pkg/operator/staticpod/controller/guard/guard_controller.go#L97-L98

Unsure of the implications here, it looks a little scary.

Description of problem:

One multus case always fail in QE e2e testing. Using same net-attach-def and pod configure files, testing passed in 4.11 but failed in 4.12 and 4.13

Version-Release number of selected component (if applicable):

4.12 and 4.13

How reproducible:

All the times

Steps to Reproduce:

[weliang@weliang networking]$ oc create -f https://raw.githubusercontent.com/weliang1/verification-tests/master/testdata/networking/multus-cni/NetworkAttachmentDefinitions/runtimeconfig-def-ipandmac.yaml
networkattachmentdefinition.k8s.cni.cncf.io/runtimeconfig-def created
[weliang@weliang networking]$ oc get net-attach-def -o yaml
apiVersion: v1
items:
- apiVersion: k8s.cni.cncf.io/v1
  kind: NetworkAttachmentDefinition
  metadata:
    creationTimestamp: "2023-01-03T16:33:03Z"
    generation: 1
    name: runtimeconfig-def
    namespace: test
    resourceVersion: "64139"
    uid: bb26c08f-adbf-477e-97ab-2aa7461e50c4
  spec:
    config: '{ "cniVersion": "0.3.1", "name": "runtimeconfig-def", "plugins": [{ "type":
      "macvlan", "capabilities": { "ips": true }, "mode": "bridge", "ipam": { "type":
      "static" } }, { "type": "tuning", "capabilities": { "mac": true } }] }'
kind: List
metadata:
  resourceVersion: ""
[weliang@weliang networking]$ oc create -f https://raw.githubusercontent.com/weliang1/verification-tests/master/testdata/networking/multus-cni/Pods/runtimeconfig-pod-ipandmac.yaml
pod/runtimeconfig-pod created
[weliang@weliang networking]$ oc get pod
NAME                READY   STATUS              RESTARTS   AGE
runtimeconfig-pod   0/1     ContainerCreating   0          6s
[weliang@weliang networking]$ oc describe pod runtimeconfig-pod
Name:         runtimeconfig-pod
Namespace:    test
Priority:     0
Node:         weliang-01031-bvxtz-worker-a-qlwz7.c.openshift-qe.internal/10.0.128.4
Start Time:   Tue, 03 Jan 2023 11:33:45 -0500
Labels:       <none>
Annotations:  k8s.v1.cni.cncf.io/networks: [ { "name": "runtimeconfig-def", "ips": [ "192.168.22.2/24" ], "mac": "CA:FE:C0:FF:EE:00" } ]
              openshift.io/scc: anyuid
Status:       Pending
IP:           
IPs:          <none>
Containers:
  runtimeconfig-pod:
    Container ID:   
    Image:          quay.io/openshifttest/hello-sdn@sha256:c89445416459e7adea9a5a416b3365ed3d74f2491beb904d61dc8d1eb89a72a4
    Image ID:       
    Port:           <none>
    Host Port:      <none>
    State:          Waiting
      Reason:       ContainerCreating
    Ready:          False
    Restart Count:  0
    Environment:    <none>
    Mounts:
      /var/run/secrets/kubernetes.io/serviceaccount from kube-api-access-k5zqd (ro)
Conditions:
  Type              Status
  Initialized       True 
  Ready             False 
  ContainersReady   False 
  PodScheduled      True 
Volumes:
  kube-api-access-k5zqd:
    Type:                    Projected (a volume that contains injected data from multiple sources)
    TokenExpirationSeconds:  3607
    ConfigMapName:           kube-root-ca.crt
    ConfigMapOptional:       <nil>
    DownwardAPI:             true
    ConfigMapName:           openshift-service-ca.crt
    ConfigMapOptional:       <nil>
QoS Class:                   BestEffort
Node-Selectors:              <none>
Tolerations:                 node.kubernetes.io/not-ready:NoExecute op=Exists for 300s
                             node.kubernetes.io/unreachable:NoExecute op=Exists for 300s
Events:
  Type     Reason                  Age   From               Message
  ----     ------                  ----  ----               -------
  Normal   Scheduled               26s   default-scheduler  Successfully assigned test/runtimeconfig-pod to weliang-01031-bvxtz-worker-a-qlwz7.c.openshift-qe.internal
  Normal   AddedInterface          24s   multus             Add eth0 [10.128.2.115/23] from openshift-sdn
  Warning  FailedCreatePodSandBox  23s   kubelet            Failed to create pod sandbox: rpc error: code = Unknown desc = failed to create pod network sandbox k8s_runtimeconfig-pod_test_7d5f3e7a-846d-4cfb-ac78-fd08b27102ae_0(cff792dbd07e8936d04aad31964bd7b626c19a90eb9d92a67736323a1a2303c4): error adding pod test_runtimeconfig-pod to CNI network "multus-cni-network": plugin type="multus" name="multus-cni-network" failed (add): [test/runtimeconfig-pod/7d5f3e7a-846d-4cfb-ac78-fd08b27102ae:runtimeconfig-def]: error adding container to network "runtimeconfig-def": Interface name contains an invalid character /
  Normal   AddedInterface          7s    multus             Add eth0 [10.128.2.116/23] from openshift-sdn
  Warning  FailedCreatePodSandBox  7s    kubelet            Failed to create pod sandbox: rpc error: code = Unknown desc = failed to create pod network sandbox k8s_runtimeconfig-pod_test_7d5f3e7a-846d-4cfb-ac78-fd08b27102ae_0(d2456338fa65847d5dc744dea64972912c10b2a32d3450910b0b81cdc9159ca4): error adding pod test_runtimeconfig-pod to CNI network "multus-cni-network": plugin type="multus" name="multus-cni-network" failed (add): [test/runtimeconfig-pod/7d5f3e7a-846d-4cfb-ac78-fd08b27102ae:runtimeconfig-def]: error adding container to network "runtimeconfig-def": Interface name contains an invalid character /
[weliang@weliang networking]$ 
 

Actual results:

Pod is not running

Expected results:

Pod should be in running state

Additional info:

 

This is a clone of issue OCPBUGS-6222. The following is the description of the original issue:

Please review the following PR: https://github.com/openshift/alibaba-cloud-csi-driver/pull/20

The PR has been automatically opened by ART (#aos-art) team automation and indicates
that the image(s) being used downstream for production builds are not consistent
with the images referenced in this component's github repository.

Differences in upstream and downstream builds impact the fidelity of your CI signal.

If you disagree with the content of this PR, please contact @release-artists
in #aos-art to discuss the discrepancy.

Closing this issue without addressing the difference will cause the issue to
be reopened automatically.

Description of problem:

If a master fails and is drained, the old copy of the metal3 pod gets stuck in Terminating state for some (possibly long) time. While the new pod works correctly, CBO expects only one port to exist and thus cannot determine the applicable Ironic IP address.

Version-Release number of selected component (if applicable):

 

How reproducible:

always

Steps to Reproduce:

1. On dev-scripts: virsh destroy <VM with metal3 pod>
2. Wait for drain to happen or trigger it manually
3. Check CBO logs

Actual results:

"unable to determine Ironic's IP to pass to the machine-image-customization-controller: there should be only one pod listed for the given label"

Expected results:

CBO reconfigures its pods with the new Ironic IP

Additional info:

I don't know how to filter out pods in Terminating state...

Description of problem:

OCP cluster installation (SNO) using assisted installer running on ACM hub cluster. 
Hub cluster is OCP 4.10.33
ACM is 2.5.4

When a cluster fails to install we remove the installation CRs and cluster namespace from the hub cluster (to eventually redeploy). The termination of the namespace hangs indefinitely (14+ hours) with finalizers remaining. 

To resolve the hang we can remove the finalizers by editing both the secret pointed to by BareMetalHost .spec.bmc.credentialsName and BareMetalHost CR. When these finalizers are removed the namespace termination completes within a few seconds.

Version-Release number of selected component (if applicable):

OCP 4.10.33
ACM 2.5.4

How reproducible:

Always

Steps to Reproduce:

1. Generate installation CRs (AgentClusterInstall, BMH, ClusterDeployment, InfraEnv, NMStateConfig, ...) with an invalid configuration parameter. Two scenarios validated to hit this issue:
  a. Invalid rootDeviceHint in BareMetalHost CR
  b. Invalid credentials in the secret referenced by BareMetalHost.spec.bmc.credentialsName
2. Apply installation CRs to hub cluster
3. Wait for cluster installation to fail
4. Remove cluster installation CRs and namespace

Actual results:

Cluster namespace remains in terminating state indefinitely:
$ oc get ns cnfocto1
NAME       STATUS        AGE    
cnfocto1   Terminating   17h

Expected results:

Cluster namespace (and all installation CRs in it) are successfully removed.

Additional info:

The installation CRs are applied to and removed from the hub cluster using argocd. The CRs have the following waves applied to them which affects the creation order (lowest to highest) and removal order (highest to lowest):
Namespace: 0
AgentClusterInstall: 1
ClusterDeployment: 1
NMStateConfig: 1
InfraEnv: 1
BareMetalHost: 1
HostFirmwareSettings: 1
ConfigMap: 1 (extra manifests)
ManagedCluster: 2
KlusterletAddonConfig: 2

 

Description of problem:
project viewer is able to see a 'Create Pod Disruption Budget' button on Pods list page while the creation will fail finally due to less permission, in this way console should not show a 'Create Pod Disruption Budget' button for project viewer, other resources list page doesn’t have the issue

Version-Release number of selected component (if applicable):
4.10.0-0.nightly-2021-09-16-212009

How reproducible:
Always

Steps to Reproduce:
1. normal user has a project and workloads

  1. oc get all -n yapei1-project
    NAME READY STATUS RESTARTS AGE
    pod/example-787f749bb-czkms 1/1 Running 0 79s
    pod/example-787f749bb-m7wxt 1/1 Running 0 79s
    pod/example-787f749bb-mw8jv 1/1 Running 0 79s

NAME READY UP-TO-DATE AVAILABLE AGE
deployment.apps/example 3/3 3 3 79s

NAME DESIRED CURRENT READY AGE
replicaset.apps/example-787f749bb 3 3 3 79s

2. grant another user with view access to user project 'yapei1-project'

  1. oc adm policy add-role-to-user view uiauto1 -n yapei1-project
    clusterrole.rbac.authorization.k8s.io/view added: "uiauto1"
    3. login with user 'uiauto1' and check the permissions on Pods list page

Actual results:
3. project viewer 'uiauto1' can see pods list successfully, at the same time console also shows a 'Create Pod Disruption Budget' button while the creation will finally fail if project viewer tries to create a pod

Expected results:
3. console should not show 'Create Pod Disruption Budget' button for a project viewer

Additional info:
For comparison: we doesn't show resource creation button('Create xxx' button) on other workloads list page for a project viewer, such as Deployments, DeploymentConfigs list etc

Description of problem:

In ZTP input, we can put AdditionalNTPSources in order to have assisted-service mix the provided sources with those the nodes receive from DHCP.

AdditionalNTPSources in AgentConfig needs to be generated in InfraEnv in order for it to be applied in the installation

Version-Release number of selected component (if applicable):

4.11 MVP patch 2

How reproducible:

100%

Steps to Reproduce:

1. Create AgentConfig with AdditionalNTPSources like for example "0.fedora.pool.ntp.org"
2. Generate ISO
3. Deploy
4. Check the resulting cluster nodes /etc/chrony.conf

Actual results:

chrony.conf only contains DHCP provided NTP sources (if not static network deplooyment)

Expected results:

/etc/chrony.conf in all the cluster nodes should have at least a server listed:
server 0.fedora.pool.ntp.org iburst

Additional info:

 

This is a clone of issue OCPBUGS-3096. The following is the description of the original issue:

While the installer binary is statically linked, the terraform binaries shipped with it are dynamically linked.

This could give issues when running the installer on Linux and depending on the GLIBC version the specific Linux distribution has installed. It becomes a risk when switching the base image of the builders from ubi8 to ubi9 and trying to run the installer in cs8 or rhel8.

For example, building the installer on cs9 and trying to run it in a cs8 distribution leads to:

time="2022-10-31T14:31:47+01:00" level=debug msg="[INFO] running Terraform command: /root/test/terraform/bin/terraform version -json"
time="2022-10-31T14:31:47+01:00" level=error msg="/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.32' not found (required by /root/test/terraform/bin/terraform)"
time="2022-10-31T14:31:47+01:00" level=error msg="/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.34' not found (required by /root/test/terraform/bin/terraform)"
time="2022-10-31T14:31:47+01:00" level=debug msg="[INFO] running Terraform command: /root/test/terraform/bin/terraform version -json"
time="2022-10-31T14:31:47+01:00" level=error msg="/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.32' not found (required by /root/test/terraform/bin/terraform)"
time="2022-10-31T14:31:47+01:00" level=error msg="/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.34' not found (required by /root/test/terraform/bin/terraform)"
time="2022-10-31T14:31:47+01:00" level=debug msg="[INFO] running Terraform command: /root/test/terraform/bin/terraform init -no-color -force-copy -input=false -backend=true -get=true -upgrade=false -plugin-dir=/root/test/terraform/plugins"
time="2022-10-31T14:31:47+01:00" level=error msg="/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.32' not found (required by /root/test/terraform/bin/terraform)"
time="2022-10-31T14:31:47+01:00" level=error msg="/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.34' not found (required by /root/test/terraform/bin/terraform)"
time="2022-10-31T14:31:47+01:00" level=error msg="failed to fetch Cluster: failed to generate asset \"Cluster\": failure applying terraform for \"cluster\" stage: failed to create cluster: failed doing terraform init: exit status 1\n/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.32' not found (required by /root/test/terraform/bin/terraform)\n/root/test/terraform/bin/terraform: /lib64/libc.so.6: version `GLIBC_2.34' not found (required by /root/test/terraform/bin/terraform)\n"

How reproducible:Always

Steps to Reproduce:{code:none}
1. Build the installer on cs9
2. Run the installer on cs8 until the terraform binary are started
3. Looking at the terrform binary with ldd or file, you can get it is not a statically linked binary and the error above might occur depending on the glibc version you are running on 

Actual results:

 

Expected results:

The terraform and providers binaries have to be statically linked as well as the installer is.

Additional info:

This comes from a build of OKD/SCOS that is happening outside of Prow on a cs9-based builder image.

One can use the Dockerfile at images/installer/Dockerfile.ci and replace the builder image with one like https://github.com/okd-project/images/blob/main/okd-builder.Dockerfile

Description of problem:

4.12 tech-preview jobs are suffering:

$ w3m -dump -cols 200 'https://search.ci.openshift.org/?search=event+happened.*no+matches+for+kind.*InsightsDataGather&maxAge=48h&type=junit' | grep 'failures match' | sort
periodic-ci-openshift-release-master-ci-4.12-e2e-aws-sdn-techpreview (all) - 10 runs, 100% failed, 100% of failures match = 100% impact
periodic-ci-openshift-release-master-ci-4.12-e2e-aws-sdn-techpreview-serial (all) - 10 runs, 100% failed, 90% of failures match = 90% impact
periodic-ci-openshift-release-master-ci-4.12-e2e-azure-sdn-techpreview (all) - 10 runs, 100% failed, 100% of failures match = 100% impact
periodic-ci-openshift-release-master-ci-4.12-e2e-azure-sdn-techpreview-serial (all) - 10 runs, 100% failed, 90% of failures match = 90% impact
periodic-ci-openshift-release-master-ci-4.12-e2e-gcp-sdn-techpreview (all) - 10 runs, 100% failed, 100% of failures match = 100% impact
periodic-ci-openshift-release-master-ci-4.12-e2e-gcp-sdn-techpreview-serial (all) - 10 runs, 100% failed, 100% of failures match = 100% impact

with runs like this failing:

: [sig-arch] events should not repeat pathologically expand_less	0s
{  1 events happened too frequently

event happened 138 times, something is wrong: ns/default namespace/default - reason/Unable to find REST mapping for %s/%s: %w InsightsDataGather.config.openshift.io%!(EXTRA string=v1, *meta.NoKindMatchError=no matches for kind "InsightsDataGather" in version "config.openshift.io/v1")}

based on events like:

$ curl -s https://gcsweb-ci.apps.ci.l2s4.p1.openshiftapps.com/gcs/origin-ci-test/logs/periodic-ci-openshift-release-master-ci-4.12-e2e-aws-sdn-techpreview/1597393851226525696/artifacts/e2e-aws-sdn-techpreview/gather-extra/artifacts/events.json | jq -r '.items[] | select(.metadata.namespace == "default" and (.message | contains("InsightsDataGather")))'
{
  "apiVersion": "v1",
  "count": 145,
  "eventTime": null,
  "firstTimestamp": "2022-11-29T01:32:16Z",
  "involvedObject": {
    "apiVersion": "v1",
    "kind": "Namespace",
    "name": "default",
    "namespace": "default"
  },
  "kind": "Event",
  "lastTimestamp": "2022-11-29T02:19:36Z",
  "message": "InsightsDataGather.config.openshift.io%!(EXTRA string=v1, *meta.NoKindMatchError=no matches for kind \"InsightsDataGather\" in version \"config.openshift.io/v1\")",
  "metadata": {
    "creationTimestamp": "2022-11-29T01:32:16Z",
    "name": "default.172bea26177786ae",
    "namespace": "default",
    "resourceVersion": "237357",
    "uid": "187cf3a0-cf4b-4cd1-ae72-51b5d77b7e73"
  },
  "reason": "Unable to find REST mapping for %s/%s: %w",
  "reportingComponent": "",
  "reportingInstance": "",
  "source": {
    "component": "run-resourcewatch-config-observer-controller-configobservercontroller"
  },
  "type": "Warning"
}

Version-Release number of selected component (if applicable):

4.12 tech-preview jobs are impacted.

How reproducible:

100% for some job flavors, per the search CI output above.

Steps to Reproduce:

1. Look at test results for any of the impacted job flavors.

Actual results:

Lots of NoKindMatchError events for v1 InsightsDataGather (it's only v1alpha1).

Expected results:

Passing test-cases.

Additional info:

The problematic REST-mapping client was removed from 4.13/dev as part of origin#27596.

This is a clone of issue OCPBUGS-3253. The following is the description of the original issue:

It is very easy to accidentally use the traditional openshift-install wait-for <x>-complete commands instead of the equivalent openshift-install agent wait-for <x>-complete command. This will work in some stages of the install, but show much less information or fail altogether in other stages of the install.
If we can detect from the asset store that this was an agent-based install, we should issue a warning if the user uses the old command.

This is a clone of issue OCPBUGS-1125. The following is the description of the original issue:

(originally reported in BZ as https://bugzilla.redhat.com/show_bug.cgi?id=1983200)

test:
[sig-etcd][Feature:DisasterRecovery][Disruptive] [Feature:EtcdRecovery] Cluster should restore itself after quorum loss [Serial]

is failing frequently in CI, see search results:
https://search.ci.openshift.org/?maxAge=168h&context=1&type=bug%2Bjunit&name=&maxMatches=5&maxBytes=20971520&groupBy=job&search=%5C%5Bsig-etcd%5C%5D%5C%5BFeature%3ADisasterRecovery%5C%5D%5C%5BDisruptive%5C%5D+%5C%5BFeature%3AEtcdRecovery%5C%5D+Cluster+should+restore+itself+after+quorum+loss+%5C%5BSerial%5C%5D

https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/release-openshift-origin-installer-e2e-aws-disruptive-4.8/1413625606435770368
https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/release-openshift-origin-installer-e2e-aws-disruptive-4.8/1415075413717159936

some brief triaging from Thomas Jungblut on:
https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/release-openshift-origin-installer-e2e-aws-disruptive-4.11/1568747321334697984

it seems the last guard pod doesn't come up, etcd operator installs this properly and the revision installer also does not spout any errors. It just doesn't progress to the latest revision. At first glance doesn't look like an issue with etcd itself, but needs to be taken a closer look at for sure.

This is a clone of issue OCPBUGS-7837. The following is the description of the original issue:

Description of problem:

 

Version-Release number of selected component (if applicable):

 

How reproducible:

 

Steps to Reproduce:

1.
2.
3.

Actual results:

 

Expected results:

 

Additional info:

 

Description of problem:

when egress firewall is applied in a namespace which name is longer than 43 symbols, acl names gets cropped and all acls for the same egress firewall object are considered equivalent. It is a known problem that we faced for network policies too.

Version-Release number of selected component (if applicable):

 

How reproducible:

 

Steps to Reproduce:

1.
2.
3.

Actual results:

 

Expected results:

 

Additional info:

 

Description of problem:

NPE on topology for the ns which just got deleted, see screenshot below

Version-Release number of selected component (if applicable):

 

How reproducible:

 

Steps to Reproduce:

1. Login as regular user
2. Create a ns and delete the ns
3. visit the deleted ns in topology

Actual results:

console breaks dur to NPE

Expected results:

console shouldn't break

Additional info:

 

Description of problem:

For Hardware Backed Management Ports (e.g. Virtual functions), the Egress IP Health Check Feature will error out with:
"unable to start health checking server: no mgmt ip"

Version-Release number of selected component (if applicable):

OVN-Kubernetes 4.12.0

How reproducible:

Always

Steps to Reproduce:

1. Load OVN-Kubernetes 4.12.0 in MLX BlueField 2
2. If in NIC mode:
https://github.com/ovn-org/ovn-kubernetes/pull/3160
https://github.com/ovn-org/ovn-kubernetes/pull/3251
Patches are needed.
3. If in DPU mode then those above patches are optional.
4. Set OVNKUBE_NODE_MGMT_PORT_NETDEV environment variable to point to the Virtual Function.

Actual results:

Error in ovnkube-node:
"unable to start health checking server: no mgmt ip".
The ovnkube-node container will crash. Egress IP Health Check should be compatible with VFs as management port.

Expected results:

No Error.

Additional info:

A simple workaround is to not return an error:
go-controller/pkg/node/node.go
@@ -660,7 +660,8 @@ func (n *OvnNode) startEgressIPHealthCheckingServer(wg *sync.WaitGroup, mgmtPort
                        return fmt.Errorf("failed start health checking server due to unsettled IPv6: %w", err)
                }
        } else {
-               return fmt.Errorf("unable to start health checking server: no mgmt ip")
+               klog.Infof("Unable to start Egress IP health checking server: no mgmt ip")
+               return nil
        }

This is a clone of issue OCPBUGS-6011. The following is the description of the original issue:

Description of problem:

The 4.12.0 openshift-client package has kubectl 1.24.1 bundled in it when it should have 1.25.x 

Version-Release number of selected component (if applicable):

4.12.0

How reproducible:

Very

Steps to Reproduce:

1. Download and unpack https://mirror.openshift.com/pub/openshift-v4/x86_64/clients/ocp/stable/openshift-client-linux-4.12.0.tar.gz 
2. ./kubectl version

Actual results:

# ./kubectl version

Client Version: version.Info{Major:"1", Minor:"24", GitVersion:"v1.24.1", GitCommit:"1928ac4250660378a7d8c3430478dfe77977cb2a", GitTreeState:"clean", BuildDate:"2022-12-07T05:08:22Z", GoVersion:"go1.18.7", Compiler:"gc", Platform:"linux/amd64"}
Kustomize Version: v4.5.4

Expected results:

kubectl version 1.25.x 

Additional info:

 

This is a clone of issue OCPBUGS-6049. The following is the description of the original issue:

Description of problem:

We show the UpdateInProgress component (the progress bars) when the cluster update status is Failing, UpdatingAndFailing, or Updating.  The inclusion of the Failing case results in a bug where the progress bars can display when an update is not occurring (see attached screenshot).  

Steps to Reproduce:

1.  Add the following overrides to ClusterVersion config (/k8s/cluster/config.openshift.io~v1~ClusterVersion/version)

spec:
  overrides:
    - group: apps
      kind: Deployment
      name: console-operator
      namespace: openshift-console-operator
      unmanaged: true    
    - group: rbac.authorization.k8s.io
      kind: ClusterRole
      name: console-operator
      namespace: ''
      unmanaged: true
2.  Wait for ClusterVersion changes to roll out.
3.  Visit /settings/cluster and note the progress bars are present and displaying 100% but the cluster is not updating

Actual results:

Progress bars are displaying when not updating.

Expected results:

Progress bars should not display when updating.

Description of problem:

The pod count for maxUnavailable of 2 or more is displayed as singular

Version-Release number of selected component (if applicable):

4.12.0-ec.2

How reproducible:

 

Steps to Reproduce:

1. Create a Deployment
2. Add a PDB to the Deployment and set the maxUnavailable to 2
3. Goto Deployment details page

Actual results:

The Max unavailable 6 of 3 pod

Expected results:

Should be Max unavailable 6 of 3 pods

Additional info:

 

This is a clone of issue OCPBUGS-723. The following is the description of the original issue:

Description of problem:
I have a customer who created clusterquota for one of the namespace, it got created but the values were not reflecting under limits or not displaying namespace details.
~~~
$ oc describe AppliedClusterResourceQuota
Name: test-clusterquota
Created: 19 minutes ago
Labels: size=custom
Annotations: <none>
Namespace Selector: []
Label Selector:
AnnotationSelector: map[openshift.io/requester:system:serviceaccount:application-service-accounts:test-sa]
Scopes: NotTerminating
Resource Used Hard
-------- ---- ----
~~~

WORKAROUND: They recreated the clusterquota object (cache it off, delete it, create new) after which it displayed values as expected.

In the past, they saw similar behavior on their test cluster, there it was heavily utilized the etcd DB was much larger in size (>2.5Gi), and had many more objects (at that time, helm secrets were being cached for all deployments, and keeping a history of 10, so etcd was being bombarded).

This cluster the same "symptom" was noticed however etcd was nowhere near that in size nor the amount of etcd objects and/or helm cached secrets.

Version-Release number of selected component (if applicable): OCP 4.9

How reproducible: Occurred only twice(once in test and in current cluster)

Steps to Reproduce:
1. Create ClusterQuota
2. Check AppliedClusterResourceQuota
3. The values and namespace is empty

Actual results: ClusterQuota should display the values

Expected results: ClusterQuota not displaying values

Description of problem:

prometheus-k8s-0 ends in CrashLoopBackOff with evel=error err="opening storage failed: /prometheus/chunks_head/000002: invalid magic number 0" on SNO after hard reboot tests

Version-Release number of selected component (if applicable):

4.11.6

How reproducible:

Not always, after ~10 attempts

Steps to Reproduce:

1. Deploy SNO with Telco DU profile applied
2. Hard reboot node via out of band interface
3. oc -n openshift-monitoring get pods prometheus-k8s-0 

Actual results:

NAME               READY   STATUS             RESTARTS          AGE
prometheus-k8s-0   5/6     CrashLoopBackOff   125 (4m57s ago)   5h28m

Expected results:

Running

Additional info:

Attaching must-gather.

The pod recovers successfully after deleting/re-creating.


[kni@registry.kni-qe-0 ~]$ oc -n openshift-monitoring logs prometheus-k8s-0
ts=2022-09-26T14:54:01.919Z caller=main.go:552 level=info msg="Starting Prometheus Server" mode=server version="(version=2.36.2, branch=rhaos-4.11-rhel-8, revision=0d81ba04ce410df37ca2c0b1ec619e1bc02e19ef)"
ts=2022-09-26T14:54:01.919Z caller=main.go:557 level=info build_context="(go=go1.18.4, user=root@371541f17026, date=20220916-14:15:37)"
ts=2022-09-26T14:54:01.919Z caller=main.go:558 level=info host_details="(Linux 4.18.0-372.26.1.rt7.183.el8_6.x86_64 #1 SMP PREEMPT_RT Sat Aug 27 22:04:33 EDT 2022 x86_64 prometheus-k8s-0 (none))"
ts=2022-09-26T14:54:01.919Z caller=main.go:559 level=info fd_limits="(soft=1048576, hard=1048576)"
ts=2022-09-26T14:54:01.919Z caller=main.go:560 level=info vm_limits="(soft=unlimited, hard=unlimited)"
ts=2022-09-26T14:54:01.921Z caller=web.go:553 level=info component=web msg="Start listening for connections" address=127.0.0.1:9090
ts=2022-09-26T14:54:01.922Z caller=main.go:989 level=info msg="Starting TSDB ..."
ts=2022-09-26T14:54:01.924Z caller=tls_config.go:231 level=info component=web msg="TLS is disabled." http2=false
ts=2022-09-26T14:54:01.926Z caller=main.go:848 level=info msg="Stopping scrape discovery manager..."
ts=2022-09-26T14:54:01.926Z caller=main.go:862 level=info msg="Stopping notify discovery manager..."
ts=2022-09-26T14:54:01.926Z caller=manager.go:951 level=info component="rule manager" msg="Stopping rule manager..."
ts=2022-09-26T14:54:01.926Z caller=manager.go:961 level=info component="rule manager" msg="Rule manager stopped"
ts=2022-09-26T14:54:01.926Z caller=main.go:899 level=info msg="Stopping scrape manager..."
ts=2022-09-26T14:54:01.926Z caller=main.go:858 level=info msg="Notify discovery manager stopped"
ts=2022-09-26T14:54:01.926Z caller=main.go:891 level=info msg="Scrape manager stopped"
ts=2022-09-26T14:54:01.926Z caller=notifier.go:599 level=info component=notifier msg="Stopping notification manager..."
ts=2022-09-26T14:54:01.926Z caller=main.go:844 level=info msg="Scrape discovery manager stopped"
ts=2022-09-26T14:54:01.926Z caller=manager.go:937 level=info component="rule manager" msg="Starting rule manager..."
ts=2022-09-26T14:54:01.926Z caller=main.go:1120 level=info msg="Notifier manager stopped"
ts=2022-09-26T14:54:01.926Z caller=main.go:1129 level=error err="opening storage failed: /prometheus/chunks_head/000002: invalid magic number 0"

Description of problem:

When a pod runs to a completed state, we typically rely on the update event that will indicate to us that this pod is completed. At that point the pod IP is released and the port configuration is removed in OVN. The subsequent delete event for this pod will be ignored because it should have been cleaned up in the previous update.

However, there can be cases where the update event is missed with pod completed. In this case we will only receive a delete with pod completed event, and ignore tearing down the pod. The end result is the pod is not cleaned up in OVN and the IP address remains allocated, reducing the amount of address range available to launch another pod. This can lead to exhausting all IP addresses available for pod allocation on a node.

Version-Release number of selected component (if applicable):

4.10.24

How reproducible:

Not sure how to reproduce this. I'm guessing some lag in kapi updates can cause the completed update event and the final delete event to be combined into a single event.

Steps to Reproduce:

1.
2.
3.

Actual results:

Port still exists in OVN, IP remains allocated for a deleted pod.

Expected results:

IP should be freed, port should be removed from OVN.

Additional info:

 

Description of problem:

Similar to OCPBUGS-11636 ccoctl needs to be updated to account for the s3 bucket changes described in https://aws.amazon.com/blogs/aws/heads-up-amazon-s3-security-changes-are-coming-in-april-of-2023/

these changes have rolled out to us-east-2 and China regions as of today and will roll out to additional regions in the near future

See OCPBUGS-11636 for additional information

Version-Release number of selected component (if applicable):

 

How reproducible:

Reproducible in affected regions.

Steps to Reproduce:

1. Use "ccoctl aws create-all" flow to create STS infrastructure in an affected region like us-east-2. Notice that document upload fails because the s3 bucket is created in a state that does not allow usage of ACLs with the s3 bucket.

Actual results:

./ccoctl aws create-all --name abutchertestue2 --region us-east-2 --credentials-requests-dir ./credrequests --output-dir _output
2023/04/11 13:01:06 Using existing RSA keypair found at _output/serviceaccount-signer.private
2023/04/11 13:01:06 Copying signing key for use by installer
2023/04/11 13:01:07 Bucket abutchertestue2-oidc created
2023/04/11 13:01:07 Failed to create Identity provider: failed to upload discovery document in the S3 bucket abutchertestue2-oidc: AccessControlListNotSupported: The bucket does not allow ACLs
        status code: 400, request id: 2TJKZC6C909WVRK7, host id: zQckCPmozx+1yEhAj+lnJwvDY9rG14FwGXDnzKIs8nQd4fO4xLWJW3p9ejhFpDw3c0FE2Ggy1Yc=

Expected results:

"ccoctl aws create-all" successfully creates IAM and S3 infrastructure. OIDC discovery and JWKS documents are successfully uploaded to the S3 bucket and are publicly accessible.

Additional info:

 

This is a clone of issue OCPBUGS-6053. The following is the description of the original issue:

Description of problem:

When a ClusterVersion's `status.availableUpdates` has a value of `null` and `Upgradeable=False`, a run time error occurs on the Cluster Settings page as the UpdatesGraph component expects `status.availableUpdates` to have a non-empty value.

Steps to Reproduce:

1.  Add the following overrides to ClusterVersion config (/k8s/cluster/config.openshift.io~v1~ClusterVersion/version)

spec:
  overrides:
    - group: apps
      kind: Deployment
      name: console-operator
      namespace: openshift-console-operator
      unmanaged: true    
    - group: rbac.authorization.k8s.io
      kind: ClusterRole
      name: console-operator
      namespace: ''
      unmanaged: true
2.  Visit /settings/cluster and note the run-time error (see attached screenshot) 

Actual results:

An error occurs.

Expected results:

The contents of the Cluster Settings page render.

This is a clone of issue OCPBUGS-8035. The following is the description of the original issue:

Description of problem:

install discnnect private cluster, ssh to master/bootstrap nodes from the bastion on the vpc failed.

Version-Release number of selected component (if applicable):

Pre-merge build https://github.com/openshift/installer/pull/6836
registry.build05.ci.openshift.org/ci-ln-5g4sj02/release:latest
Tag: 4.13.0-0.ci.test-2023-02-27-033047-ci-ln-5g4sj02-latest

How reproducible:

always

Steps to Reproduce:

1.Create bastion instance maxu-ibmj-p1-int-svc 
2.Create vpc on the bastion host 
3.Install private disconnect cluster on the bastion host with mirror registry 
4.ssh to the bastion  
5.ssh to the master/bootstrap nodes from the bastion 

Actual results:

[core@maxu-ibmj-p1-int-svc ~]$ ssh -i ~/openshift-qe.pem core@10.241.0.5 -v
OpenSSH_8.8p1, OpenSSL 3.0.5 5 Jul 2022
debug1: Reading configuration data /etc/ssh/ssh_config
debug1: Reading configuration data /etc/ssh/ssh_config.d/50-redhat.conf
debug1: Reading configuration data /etc/crypto-policies/back-ends/openssh.config
debug1: configuration requests final Match pass
debug1: re-parsing configuration
debug1: Reading configuration data /etc/ssh/ssh_config
debug1: Reading configuration data /etc/ssh/ssh_config.d/50-redhat.conf
debug1: Reading configuration data /etc/crypto-policies/back-ends/openssh.config
debug1: Connecting to 10.241.0.5 [10.241.0.5] port 22.
debug1: connect to address 10.241.0.5 port 22: Connection timed out
ssh: connect to host 10.241.0.5 port 22: Connection timed out

Expected results:

ssh succeed.

Additional info:

$ibmcloud is sg-rules r014-5a6c16f4-8a4c-4c02-ab2d-626c14f72a77 --vpc maxu-ibmj-p1-vpc
Listing rules of security group r014-5a6c16f4-8a4c-4c02-ab2d-626c14f72a77 under account OpenShift-QE as user ServiceId-dff277a9-b608-410a-ad24-c544e59e3778...
ID                                          Direction   IP version   Protocol                      Remote   
r014-6739d68f-6827-41f4-b51a-5da742c353b2   outbound    ipv4         all                           0.0.0.0/0   
r014-06d44c15-d3fd-4a14-96c4-13e96aa6769c   inbound     ipv4         all                           shakiness-perfectly-rundown-take   r014-25b86956-5370-4925-adaf-89dfca9fb44b   inbound     ipv4         tcp Ports:Min=22,Max=22       0.0.0.0/0   
r014-e18f0f5e-c4e5-44a5-b180-7a84aa59fa97   inbound     ipv4         tcp Ports:Min=3128,Max=3129   0.0.0.0/0   
r014-7e79c4b7-d0bb-4fab-9f5d-d03f6b427d89   inbound     ipv4         icmp Type=8,Code=0            0.0.0.0/0   
r014-03f23b04-c67a-463d-9754-895b8e474e75   inbound     ipv4         tcp Ports:Min=5000,Max=5000   0.0.0.0/0   
r014-8febe8c8-c937-42b6-b352-8ae471749321   inbound     ipv4         tcp Ports:Min=6001,Max=6002   0.0.0.0/0   

This is a clone of issue OCPBUGS-10661. The following is the description of the original issue:

This is a clone of issue OCPBUGS-10591. The following is the description of the original issue:

Description of problem:

Starting with 4.12.0-0.nightly-2023-03-13-172313, the machine API operator began receiving an invalid version tag either due to a missing or invalid VERSION_OVERRIDE(https://github.com/openshift/machine-api-operator/blob/release-4.12/hack/go-build.sh#L17-L20) value being passed tot he build.

This is resulting in all jobs invoked by the 4.12 nightlies failing to install.

Version-Release number of selected component (if applicable):

4.12.0-0.nightly-2023-03-13-172313 and later

How reproducible:

consistently in 4.12 nightlies only(ci builds do not seem to be impacted).

Steps to Reproduce:

1.
2.
3.

Actual results:

 

Expected results:

 

Additional info:

Example of failure https://gcsweb-ci.apps.ci.l2s4.p1.openshiftapps.com/gcs/origin-ci-test/logs/periodic-ci-openshift-release-master-nightly-4.12-e2e-aws-csi/1635331349046890496/artifacts/e2e-aws-csi/gather-extra/artifacts/pods/openshift-machine-api_machine-api-operator-866d7647bd-6lhl4_machine-api-operator.log

This is a clone of issue OCPBUGS-2988. The following is the description of the original issue:

Description of problem:

openshift-apiserver, openshift-oauth-apiserver and kube-apiserver pods cannot validate the certificate when trying to reach etcd reporting certificate validation errors:

}. Err: connection error: desc = "transport: authentication handshake failed: x509: certificate is valid for ::1, 127.0.0.1, ::1, fd69::2, not 2620:52:0:198::10"
W1018 11:36:43.523673      15 logging.go:59] [core] [Channel #186 SubChannel #187] grpc: addrConn.createTransport failed to connect to {
  "Addr": "[2620:52:0:198::10]:2379",
  "ServerName": "2620:52:0:198::10",
  "Attributes": null,
  "BalancerAttributes": null,
  "Type": 0,
  "Metadata": null
}. Err: connection error: desc = "transport: authentication handshake failed: x509: certificate is valid for ::1, 127.0.0.1, ::1, fd69::2, not 2620:52:0:198::10"

Version-Release number of selected component (if applicable):

4.12.0-0.nightly-2022-10-18-041406

How reproducible:

100%

Steps to Reproduce:

1. Deploy SNO with single stack IPv6 via ZTP procedure

Actual results:

Deployment times out and some of the operators aren't deployed successfully.

NAME                                       VERSION                              AVAILABLE   PROGRESSING   DEGRADED   SINCE   MESSAGE
authentication                             4.12.0-0.nightly-2022-10-18-041406   False       False         True       124m    APIServerDeploymentAvailable: no apiserver.openshift-oauth-apiserver pods available on any node....
baremetal                                  4.12.0-0.nightly-2022-10-18-041406   True        False         False      112m    
cloud-controller-manager                   4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
cloud-credential                           4.12.0-0.nightly-2022-10-18-041406   True        False         False      115m    
cluster-autoscaler                         4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
config-operator                            4.12.0-0.nightly-2022-10-18-041406   True        False         False      124m    
console                                                                                                                      
control-plane-machine-set                  4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
csi-snapshot-controller                    4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
dns                                        4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
etcd                                       4.12.0-0.nightly-2022-10-18-041406   True        False         True       121m    ClusterMemberControllerDegraded: could not get list of unhealthy members: giving up getting a cached client after 3 tries
image-registry                             4.12.0-0.nightly-2022-10-18-041406   False       True          True       104m    Available: The registry is removed...
ingress                                    4.12.0-0.nightly-2022-10-18-041406   True        True          True       111m    The "default" ingress controller reports Degraded=True: DegradedConditions: One or more other status conditions indicate a degraded state: DeploymentReplicasAllAvailable=False (DeploymentReplicasNotAvailable: 0/1 of replicas are available)
insights                                   4.12.0-0.nightly-2022-10-18-041406   True        False         False      118s    
kube-apiserver                             4.12.0-0.nightly-2022-10-18-041406   True        False         False      102m    
kube-controller-manager                    4.12.0-0.nightly-2022-10-18-041406   True        False         True       107m    GarbageCollectorDegraded: error fetching rules: Get "https://thanos-querier.openshift-monitoring.svc:9091/api/v1/rules": dial tcp [fd02::3c5f]:9091: connect: connection refused
kube-scheduler                             4.12.0-0.nightly-2022-10-18-041406   True        False         False      107m    
kube-storage-version-migrator              4.12.0-0.nightly-2022-10-18-041406   True        False         False      117m    
machine-api                                4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
machine-approver                           4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
machine-config                             4.12.0-0.nightly-2022-10-18-041406   True        False         False      115m    
marketplace                                4.12.0-0.nightly-2022-10-18-041406   True        False         False      116m    
monitoring                                                                      False       True          True       98m     deleting Thanos Ruler Route failed: Timeout: request did not complete within requested timeout - context deadline exceeded, deleting UserWorkload federate Route failed: Timeout: request did not complete within requested timeout - context deadline exceeded, reconciling Alertmanager Route failed: retrieving Route object failed: the server was unable to return a response in the time allotted, but may still be processing the request (get routes.route.openshift.io alertmanager-main), reconciling Thanos Querier Route failed: retrieving Route object failed: the server was unable to return a response in the time allotted, but may still be processing the request (get routes.route.openshift.io thanos-querier), reconciling Prometheus API Route failed: retrieving Route object failed: the server was unable to return a response in the time allotted, but may still be processing the request (get routes.route.openshift.io prometheus-k8s), prometheuses.monitoring.coreos.com "k8s" not found
network                                    4.12.0-0.nightly-2022-10-18-041406   True        False         False      124m    
node-tuning                                4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
openshift-apiserver                        4.12.0-0.nightly-2022-10-18-041406   True        False         False      104m    
openshift-controller-manager               4.12.0-0.nightly-2022-10-18-041406   True        False         False      107m    
openshift-samples                                                               False       True          False      103m    The error the server was unable to return a response in the time allotted, but may still be processing the request (get imagestreams.image.openshift.io) during openshift namespace cleanup has left the samples in an unknown state
operator-lifecycle-manager                 4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
operator-lifecycle-manager-catalog         4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m    
operator-lifecycle-manager-packageserver   4.12.0-0.nightly-2022-10-18-041406   True        False         False      106m    
service-ca                                 4.12.0-0.nightly-2022-10-18-041406   True        False         False      124m    
storage                                    4.12.0-0.nightly-2022-10-18-041406   True        False         False      111m  

Expected results:

Deployment succeeds without issues.

Additional info:

I was unable to run must-gather so attaching the pods logs copied from the host file system.

I saw the following while trying to debug the following "unexpectedly found multiple equivalent ACLs" error.

Add a generic networkpolicy:

kind: NetworkPolicy
apiVersion: networking.k8s.io/v1
metadata:
name: allow-same-namespace
namespace: nbc9-demo-project
spec:
podSelector: {}
ingress:

  • from:
  • podSelector: {}
    policyTypes:
  • Ingress

$ kubectl get pod ovnkube-master-pk89w -o jsonpath='

{range .spec.containers[]} {@.image}

'
quay.io/openshift/okd-content@sha256:79ee71e045a7b224a132f6c75b4220ec35b9a06049061a6bd9ca9fc976c412e5

[root@dev-nkjpp-master-2 ~]# ovnkube -v
I0609 17:33:34.930787 58 ovs.go:93] Maximum command line arguments set to: 191102
Version: 0.3.0
Git commit: 7bf36eea28fe66365d0dfdf8c39e3311ea14d19b
Git branch: release-4.10
Go version: go1.16.6
Build date: 2022-05-27
OS/Arch: linux amd64

Which then fails to apply, retries, and when the networkpolicy is deleted, the ovnkube-master pod segfaults:

I0609 17:00:26.653710 1 policy.go:1092] Adding network policy allow-same-namespace in namespace nbc9-demo-project
E0609 17:00:26.656858 1 ovn.go:753] Failed to create network policy nbc9-demo-project/allow-same-namespace, error: failed to create default port groups and acls for policy: nbc9-demo-project/allow-same-namespace, error: unexpectedly found multiple equivalent ACLs: [

{UUID:7b55ba0c-150f-4a63-9601-cfde25f29408 Action:drop Direction:from-lport ExternalIDs:map[default-deny-policy-type:Egress] Label:0 Log:false Match:inport == @a7830797310894963783_egressDefaultDeny Meter:0xc0010df310 Name:0xc0010df320 Options:map[apply-after-lb:true] Priority:1000 Severity:0xc0010df330}

{UUID:60cb946a-46e9-4623-9ba4-3cb35f018ed6 Action:drop Direction:from-lport ExternalIDs:map[default-deny-policy-type:Egress] Label:0 Log:false Match:inport == @a7830797310894963783_egressDefaultDeny Meter:0xc0010df390 Name:0xc0010df3d0 Options:map[apply-after-lb:true] Priority:1000 Severity:0xc0010df3e0}

]
I0609 17:00:51.437895 1 policy_retry.go:46] Network Policy Retry: nbc9-demo-project/allow-same-namespace retry network policy setup
I0609 17:00:51.437935 1 policy_retry.go:63] Network Policy Retry: Creating new policy for nbc9-demo-project/allow-same-namespace
I0609 17:00:51.437941 1 policy.go:1092] Adding network policy allow-same-namespace in namespace nbc9-demo-project
I0609 17:00:51.438174 1 policy_retry.go:65] Network Policy Retry create failed for nbc9-demo-project/allow-same-namespace, will try again later: failed to create default port groups and acls for policy: nbc9-demo-project/allow-same-namespace, error: unexpectedly found multiple equivalent ACLs: [

{UUID:60cb946a-46e9-4623-9ba4-3cb35f018ed6 Action:drop Direction:from-lport ExternalIDs:map[default-deny-policy-type:Egress] Label:0 Log:false Match:inport == @a7830797310894963783_egressDefaultDeny Meter:0xc002215e00 Name:0xc002215e70 Options:map[apply-after-lb:true] Priority:1000 Severity:0xc002215e80}

{UUID:7b55ba0c-150f-4a63-9601-cfde25f29408 Action:drop Direction:from-lport ExternalIDs:map[default-deny-policy-type:Egress] Label:0 Log:false Match:inport == @a7830797310894963783_egressDefaultDeny Meter:0xc0022b0310 Name:0xc0022b03a0 Options:map[apply-after-lb:true] Priority:1000 Severity:0xc000070ab0}

]
I0609 17:01:02.679219 1 policy.go:1174] Deleting network policy allow-same-namespace in namespace nbc9-demo-project

E0609 17:01:02.679407 1 runtime.go:78] Observed a panic: "invalid memory address or nil pointer dereference" (runtime error: invalid memory address or nil pointer dereference)
goroutine 249 [running]:
k8s.io/apimachinery/pkg/util/runtime.logPanic(0x1c19c80, 0x2e9a810)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/runtime/runtime.go:74 +0x95
k8s.io/apimachinery/pkg/util/runtime.HandleCrash(0x0, 0x0, 0x0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/runtime/runtime.go:48 +0x86
panic(0x1c19c80, 0x2e9a810)
/usr/lib/golang/src/runtime/panic.go:965 +0x1b9
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/ovn.(*Controller).destroyNetworkPolicy(0xc0022c2000, 0x0, 0xc000bb9000, 0x0, 0x0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/ovn/policy.go:1210 +0x55
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/ovn.(*Controller).deleteNetworkPolicy(0xc0022c2000, 0xc002544f00, 0x0, 0x0, 0x0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/ovn/policy.go:1198 +0x43f
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/ovn.(*Controller).WatchNetworkPolicy.func4(0x1e7e840, 0xc002544f00)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/ovn/ovn.go:800 +0xae
k8s.io/client-go/tools/cache.ResourceEventHandlerFuncs.OnDelete(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/controller.go:245
k8s.io/client-go/tools/cache.FilteringResourceEventHandler.OnDelete(0xc000f4c4c0, 0x2160f10, 0xc002f498c0, 0x1e7e840, 0xc002544f00)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/controller.go:288 +0x6a
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*Handler).OnDelete(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:52
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*informer).newFederatedHandler.func3.1(0xc00463dbf0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:340 +0x65
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*informer).forEachHandler(0xc0002c61b0, 0x1e7e840, 0xc002544f00, 0xc003dc9d60)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:114 +0x156
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*informer).newFederatedHandler.func3(0x1e7e840, 0xc002544f00)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:339 +0x1b2
k8s.io/client-go/tools/cache.ResourceEventHandlerFuncs.OnDelete(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/controller.go:245
k8s.io/client-go/tools/cache.(*processorListener).run.func1()
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/shared_informer.go:779 +0x166
k8s.io/apimachinery/pkg/util/wait.BackoffUntil.func1(0xc002367760)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:155 +0x5f
k8s.io/apimachinery/pkg/util/wait.BackoffUntil(0xc003dc9f60, 0x2127a00, 0xc000229a70, 0x1bd5d01, 0xc000039740)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:156 +0x9b
k8s.io/apimachinery/pkg/util/wait.JitterUntil(0xc002367760, 0x3b9aca00, 0x0, 0x1, 0xc000039740)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:133 +0x98
k8s.io/apimachinery/pkg/util/wait.Until(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:90
k8s.io/client-go/tools/cache.(*processorListener).run(0xc0004f3180)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/shared_informer.go:771 +0x95
k8s.io/apimachinery/pkg/util/wait.(*Group).Start.func1(0xc0002bed80, 0xc000ed5850)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:73 +0x51
created by k8s.io/apimachinery/pkg/util/wait.(*Group).Start
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:71 +0x65
panic: runtime error: invalid memory address or nil pointer dereference [recovered]
panic: runtime error: invalid memory address or nil pointer dereference
[signal SIGSEGV: segmentation violation code=0x1 addr=0x0 pc=0x1a021d5]

goroutine 249 [running]:
k8s.io/apimachinery/pkg/util/runtime.HandleCrash(0x0, 0x0, 0x0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/runtime/runtime.go:55 +0x109
panic(0x1c19c80, 0x2e9a810)
/usr/lib/golang/src/runtime/panic.go:965 +0x1b9
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/ovn.(*Controller).destroyNetworkPolicy(0xc0022c2000, 0x0, 0xc000bb9000, 0x0, 0x0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/ovn/policy.go:1210 +0x55
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/ovn.(*Controller).deleteNetworkPolicy(0xc0022c2000, 0xc002544f00, 0x0, 0x0, 0x0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/ovn/policy.go:1198 +0x43f
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/ovn.(*Controller).WatchNetworkPolicy.func4(0x1e7e840, 0xc002544f00)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/ovn/ovn.go:800 +0xae
k8s.io/client-go/tools/cache.ResourceEventHandlerFuncs.OnDelete(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/controller.go:245
k8s.io/client-go/tools/cache.FilteringResourceEventHandler.OnDelete(0xc000f4c4c0, 0x2160f10, 0xc002f498c0, 0x1e7e840, 0xc002544f00)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/controller.go:288 +0x6a
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*Handler).OnDelete(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:52
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*informer).newFederatedHandler.func3.1(0xc00463dbf0)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:340 +0x65
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*informer).forEachHandler(0xc0002c61b0, 0x1e7e840, 0xc002544f00, 0xc003dc9d60)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:114 +0x156
github.com/ovn-org/ovn-kubernetes/go-controller/pkg/factory.(*informer).newFederatedHandler.func3(0x1e7e840, 0xc002544f00)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/pkg/factory/handler.go:339 +0x1b2
k8s.io/client-go/tools/cache.ResourceEventHandlerFuncs.OnDelete(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/controller.go:245
k8s.io/client-go/tools/cache.(*processorListener).run.func1()
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/shared_informer.go:779 +0x166
k8s.io/apimachinery/pkg/util/wait.BackoffUntil.func1(0xc002367760)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:155 +0x5f
k8s.io/apimachinery/pkg/util/wait.BackoffUntil(0xc003dc9f60, 0x2127a00, 0xc000229a70, 0x1bd5d01, 0xc000039740)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:156 +0x9b
k8s.io/apimachinery/pkg/util/wait.JitterUntil(0xc002367760, 0x3b9aca00, 0x0, 0x1, 0xc000039740)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:133 +0x98
k8s.io/apimachinery/pkg/util/wait.Until(...)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:90
k8s.io/client-go/tools/cache.(*processorListener).run(0xc0004f3180)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/client-go/tools/cache/shared_informer.go:771 +0x95
k8s.io/apimachinery/pkg/util/wait.(*Group).Start.func1(0xc0002bed80, 0xc000ed5850)
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:73 +0x51
created by k8s.io/apimachinery/pkg/util/wait.(*Group).Start
/go/src/github.com/openshift/ovn-kubernetes/go-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:71 +0x65

Please let me know if any further information is required. I have a must-gather for this cluster but the file attachment tool in bugzilla won't let me attach anything larger than 19.5MB (the must-gather is 212.1MB)

This is a clone of issue OCPBUGS-10622. The following is the description of the original issue:

Description of problem:

Unit test failing 

=== RUN   TestNewAppRunAll/app_generation_using_context_dir
    newapp_test.go:907: app generation using context dir: Error mismatch! Expected <nil>, got supplied context directory '2.0/test/rack-test-app' does not exist in 'https://github.com/openshift/sti-ruby'
    --- FAIL: TestNewAppRunAll/app_generation_using_context_dir (0.61s)


Version-Release number of selected component (if applicable):

 

How reproducible:

100

Steps to Reproduce:

see for example https://prow.ci.openshift.org/view/gs/origin-ci-test/pr-logs/pull/openshift_oc/1376/pull-ci-openshift-oc-master-images/1638172620648091648 

Actual results:

unit tests fail

Expected results:

TestNewAppRunAll unit test should pass

Additional info:

 

In 4.12.0-rc.0 some API-server components declare flowcontrol/v1beta1 release manifests:

$ oc adm release extract --to manifests quay.io/openshift-release-dev/ocp-release:4.12.0-rc.0-x86_64
$ grep -r flowcontrol.apiserver.k8s.io manifests
manifests/0000_50_cluster-authentication-operator_09_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_50_cluster-authentication-operator_09_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_50_cluster-authentication-operator_09_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_50_cluster-authentication-operator_09_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_20_etcd-operator_10_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_20_kube-apiserver-operator_08_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_20_kube-apiserver-operator_08_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_20_kube-apiserver-operator_08_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_50_cluster-openshift-apiserver-operator_09_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_50_cluster-openshift-apiserver-operator_09_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_50_cluster-openshift-apiserver-operator_09_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1
manifests/0000_50_cluster-openshift-controller-manager-operator_10_flowschema.yaml:apiVersion: flowcontrol.apiserver.k8s.io/v1beta1

The APIs are scheduled for removal in Kube 1.26, which will ship with OpenShift 4.13. We want the 4.12 CVO to move to modern APIs in 4.12, so the APIRemovedInNext.*ReleaseInUse alerts are not firing on 4.12. This ticket tracks removing those manifests, or replacing them with a more modern resource type, or some such. Definition of done is that new 4.13 (and with backports, 4.12) nightlies no longer include flowcontrol.apiserver.k8s.io/v1beta1 manifests.

This can be noticed in https://gcsweb-ci.apps.ci.l2s4.p1.openshiftapps.com/gcs/origin-ci-test/pr-logs/pull/27560/pull-ci-openshift-origin-master-e2e-gcp-ovn/1593697975584952320/artifacts/e2e-gcp-ovn/openshift-e2e-test/build-log.txt:

[It] clients should not use APIs that are removed in upcoming releases [apigroup:config.openshift.io] [Suite:openshift/conformance/parallel]
  github.com/openshift/origin/test/extended/apiserver/api_requests.go:27
Nov 18 21:59:06.261: INFO: api flowschemas.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 254 times
Nov 18 21:59:06.261: INFO: api horizontalpodautoscalers.v2beta2.autoscaling, removed in release 1.26, was accessed 10 times
Nov 18 21:59:06.261: INFO: api prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 22 times
Nov 18 21:59:06.261: INFO: user/system:serviceaccount:openshift-cluster-version:default accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 224 times
Nov 18 21:59:06.261: INFO: user/system:serviceaccount:openshift-cluster-version:default accessed prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io 22 times
Nov 18 21:59:06.261: INFO: user/system:serviceaccount:openshift-kube-storage-version-migrator:kube-storage-version-migrator-sa accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 16 times
Nov 18 21:59:06.261: INFO: user/system:admin accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 14 times
Nov 18 21:59:06.261: INFO: user/system:serviceaccount:openshift-monitoring:kube-state-metrics accessed horizontalpodautoscalers.v2beta2.autoscaling 10 times
Nov 18 21:59:06.261: INFO: api flowschemas.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 254 times
api horizontalpodautoscalers.v2beta2.autoscaling, removed in release 1.26, was accessed 10 times
api prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 22 times
user/system:admin accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 14 times
user/system:serviceaccount:openshift-cluster-version:default accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 224 times
user/system:serviceaccount:openshift-cluster-version:default accessed prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io 22 times
user/system:serviceaccount:openshift-kube-storage-version-migrator:kube-storage-version-migrator-sa accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 16 times
user/system:serviceaccount:openshift-monitoring:kube-state-metrics accessed horizontalpodautoscalers.v2beta2.autoscaling 10 times
Nov 18 21:59:06.261: INFO: api flowschemas.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 254 times
api horizontalpodautoscalers.v2beta2.autoscaling, removed in release 1.26, was accessed 10 times
api prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 22 times
user/system:admin accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 14 times
user/system:serviceaccount:openshift-cluster-version:default accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 224 times
user/system:serviceaccount:openshift-cluster-version:default accessed prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io 22 times
user/system:serviceaccount:openshift-kube-storage-version-migrator:kube-storage-version-migrator-sa accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 16 times
user/system:serviceaccount:openshift-monitoring:kube-state-metrics accessed horizontalpodautoscalers.v2beta2.autoscaling 10 times
[AfterEach] [sig-arch][Late]
  github.com/openshift/origin/test/extended/util/client.go:158
[AfterEach] [sig-arch][Late]
  github.com/openshift/origin/test/extended/util/client.go:159
flake: api flowschemas.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 254 times
api horizontalpodautoscalers.v2beta2.autoscaling, removed in release 1.26, was accessed 10 times
api prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io, removed in release 1.26, was accessed 22 times
user/system:admin accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 14 times
user/system:serviceaccount:openshift-cluster-version:default accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 224 times
user/system:serviceaccount:openshift-cluster-version:default accessed prioritylevelconfigurations.v1beta1.flowcontrol.apiserver.k8s.io 22 times
user/system:serviceaccount:openshift-kube-storage-version-migrator:kube-storage-version-migrator-sa accessed flowschemas.v1beta1.flowcontrol.apiserver.k8s.io 16 times
user/system:serviceaccount:openshift-monitoring:kube-state-metrics accessed horizontalpodautoscalers.v2beta2.autoscaling 10 times
Ginkgo exit error 4: exit with code 4

This is required to unblock https://github.com/openshift/origin/pull/27561

This is a clone of issue OCPBUGS-3973. The following is the description of the original issue:

Description of problem:

Upgrade SNO cluster from 4.12 to 4.13, the csi-snapshot-controller is degraded with message (same with log from csi-snapshot-controller-operator): 
E1122 09:02:51.867727       1 base_controller.go:272] StaticResourceController reconciliation failed: ["csi_controller_deployment_pdb.yaml" (string): poddisruptionbudgets.policy "csi-snapshot-controller-pdb" is forbidden: User "system:serviceaccount:openshift-cluster-storage-operator:csi-snapshot-controller-operator" cannot delete resource "poddisruptionbudgets" in API group "policy" in the namespace "openshift-cluster-storage-operator", "webhook_deployment_pdb.yaml" (string): poddisruptionbudgets.policy "csi-snapshot-webhook-pdb" is forbidden: User "system:serviceaccount:openshift-cluster-storage-operator:csi-snapshot-controller-operator" cannot delete resource "poddisruptionbudgets" in API group "policy" in the namespace "openshift-cluster-storage-operator"]

Version-Release number of selected component (if applicable):

4.12.0-0.nightly-2022-11-19-191518 to 4.13.0-0.nightly-2022-11-19-182111

How reproducible:

1/1

Steps to Reproduce:

Upgrade SNO cluster from 4.12 to 4.13 

Actual results:

csi-snapshot-controller is degraded

Expected results:

csi-snapshot-controller should be healthy

Additional info:

It also happened on from scratch cluster on 4.13: https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/periodic-ci-openshift-multiarch-master-nightly-4.13-ocp-e2e-aws-ovn-arm64-single-node/1594946128904720384

Description of problem:

The API Explorer page layout is incorrect,  please check the attachment for more details

Version-Release number of selected component (if applicable):

4.12.0-0.nightly-2022-08-15-150248

How reproducible:

Always

Steps to Reproduce:
1. Login OCP, Go to Home -> API Explorer page

2. Check if there is an extra blank line between the dropdown filter and the list 

Actual results:

There is an extra blank line between the dropdown filter and the list 

Expected results:

Use right patternfly package, remove the extra blank line

Additional info:

104.0.5112.79 (Official Build) (64-bit)

This is a clone of issue OCPBUGS-1428. The following is the description of the original issue:

Description of problem:

When using an OperatorGroup attached to a service account, AND if there is a secret present in the namespace, the operator installation will fail with the message:
the service account does not have any API secret sa=testx-ns/testx-sa
This issue seems similar to https://bugzilla.redhat.com/show_bug.cgi?id=2094303 - which was resolved in 4.11.0 - however, the new element now, is that the presence of a secret in the namespace  is causing the issue.
The name of the secret seems significant - suggesting something somewhere is depending on the order that secrets are listed in. For example, If the secret in the namespace is called "asecret", the problem does not occur. If it is called "zsecret", the problem always occurs.
"zsecret" is not a "kubernetes.io/service-account-token". The issue I have raised here relates to Opaque secrets - zsecret is an Opaque secret. The issue may apply to other types of secrets, but specifically my issue is that when there is an opaque secret present in the namespace, the operator install fails as described. I aught to be allowed to have an opaque secret present in the namespace where I am installing the operator.

Version-Release number of selected component (if applicable):

4.11.0 & 4.11.1

How reproducible:

100% reproducible

Steps to Reproduce:

1.Create namespace: oc new-project testx-ns
2. oc apply -f api-secret-issue.yaml

Actual results:

 

Expected results:

 

Additional info:

API YAML:

cat api-secret-issue.yaml 
apiVersion: v1
kind: Secret
metadata:
  name: zsecret
  namespace: testx-ns
  annotations:
   kubernetes.io/service-account.name: testx-sa
type: Opaque
stringData:
  mykey: mypass

apiVersion: v1
kind: ServiceAccount
metadata:
  name: testx-sa
  namespace: testx-ns

kind: OperatorGroup
apiVersion: operators.coreos.com/v1
metadata:
  name: testx-og
  namespace: testx-ns
spec:
  serviceAccountName: "testx-sa"
  targetNamespaces:
  - testx-ns

apiVersion: rbac.authorization.k8s.io/v1
kind: Role
metadata:
  name: testx-role
  namespace: testx-ns
rules:

  • apiGroups: ["*"]
      resources: ["*"]
      verbs: ["*"] 
      

apiVersion: rbac.authorization.k8s.io/v1
kind: RoleBinding
metadata:
  name: testx-rolebinding
  namespace: testx-ns
roleRef:
  apiGroup: rbac.authorization.k8s.io
  kind: Role
  name: testx-role
subjects:

  • kind: ServiceAccount
      name: testx-sa
      namespace: testx-ns

apiVersion: operators.coreos.com/v1alpha1
kind: Subscription
metadata:
  name: etcd-operator
  namespace: testx-ns
spec:
  channel: singlenamespace-alpha
  installPlanApproval: Automatic
  name: etcd
  source: community-operators
  sourceNamespace: openshift-marketplace

This is a clone of issue OCPBUGS-3426. The following is the description of the original issue:

Description of problem:

We need to update the operator to be synced with the K8 api version used by OCP 4.13. We also need to sync our samples libraries with latest available libraries. Any deprecated libraries should be removed as well.

Version-Release number of selected component (if applicable):

 

How reproducible:

 

Steps to Reproduce:

1.
2.
3.

Actual results:

 

Expected results:

 

Additional info:

 

Description of problem:
When opening the Devfile sample developer catalog, switch the project in another browser tab, and then open devfile samples link in a new tab, the current project context is getting lost.

Version-Release number of selected component (if applicable):
4.12, expecting that this happen also in older versions

How reproducible:
Always

Steps to Reproduce:
1. Switch to the developer perspective, navigate to Add > Samples
2. Open a new browser tab and create a new project
3. Ctrl+click a sample in the first tab.

Actual results:
The project has also changed in the "Import sample" page

Expected results:
The project should be used also for the new "Import sample" page

Additional info:
We had this issue earlier for other catalog entries. Other samples works already fine, just the Devfile sample links doesn't contain the current namespace.

This is a clone of issue OCPBUGS-5733. The following is the description of the original issue:

Description of problem:

Description of parameters are not shown in pipelinerun description page

Version-Release number of selected component (if applicable):

Openshift Pipelines 1.9.0
OCP 4.12

How reproducible:

Always

Steps to Reproduce:

1. Create pipeline with parameters and add description to the params
2. Start the pipeline and navigate to created pipelinerun
3. Select 

Parameters

tab and check the description of the params 

Actual results:

Description feild of the params are empty

Expected results:

Description of the params should be present

Additional info:

 

Description of problem:

Provisioning interface on master node not getting ipv4 dhcp ip address from bootstrap dhcp server on OCP 4.10.16 IPI BareMetal install.

Customer is performing an OCP 4.10.16 IPI BareMetal install and bootstrap node provisions just fine, but when master nodes are booted for provisioning, they are not getting an ipv4 address via dhcp. As such, the install is not moving forward at this point.

Version-Release number of selected component (if applicable):

OCP 4.10.16

How reproducible:

Perform OCP 4.10.16 IPI BareMetal install.

Actual results:

provisioning interface comes up (as evidenced by ipv6 address) but is not getting an ipv4 address via dhcp. OCP install / provisioning fails at this point.

Expected results:

provisioning interface successfully received an ipv4 ip address and successfully provisioned master nodes (and subsequently worker nodes as well.)

Additional info:

As a troubleshooting measure, manually adding an ipv4 ip address did allow the coreos image on the bootstrap node to be reached via curl.

Further, the kernel boot line for the first master node was updated for a static ip addresss assignment for further confirmation that the master node would successfully image this way which further confirming that the issue is the provisioning interface not receiving an ipv4 ip address from the dhcp server.

This is a clone of issue OCPBUGS-4941. The following is the description of the original issue:

Description of problem: This is a follow-up to OCPBUGS-3933.

The installer fails to destroy the cluster when the OpenStack object storage omits 'content-type' from responses, and a container is empty.

Version-Release number of selected component (if applicable):

4.8.z

How reproducible:

Likely not happening in customer environments where Swift is exposed directly. We're seeing the issue in our CI where we're using a non-RHOSP managed cloud.

Steps to Reproduce:

1.
2.
3.

Actual results:

 

Expected results:

 

Additional info:

 

This is a clone of issue OCPBUGS-7780. The following is the description of the original issue:

Description of problem:

4.9 and 4.10 oc calls to oc adm upgrade channel ... for 4.11+ clusters would clear spec.capabilities. Not all that many clusters try to restrict capabilities, but folks will need to bump their channel for at least every other minor (if their using EUS channels), and while we recommend folks use an oc from the 4.y they're heading towards, we don't have anything in place to enforce that.

Version-Release number of selected component (if applicable):

4.9 and 4.10 oc are exposed vs. the new-in-4.11 spec.capabilities. Newer oc could theoretically be exposed vs. any new ClusterVersion spec capabilities.

How reproducible:

100%

Steps to Reproduce:

1. Install a 4.11+ cluster with None capabilities.
2. Set the channel with a 4.10.51 oc, like oc adm upgrade channel fast-4.11.
3. Check the capabilities with oc get -o json clusterversion version | jq -c .spec.capabilities.

Actual results:

null

Expected results:

{"baselineCapabilitySet":"None"}

Description of problem:

cloud-network-config-controller pod crashloops in proxy deployments as it tries to reach Openstack keystone API directly (not through the proxy) and there is no connectivity.

NAMESPACE                                          NAME                                                         READY   STATUS             RESTARTS          AGE
openshift-cloud-network-config-controller          cloud-network-config-controller-c4867b748-vlq9h              0/1     CrashLoopBackOff   158 (2m10s ago)   13h

$ oc -n openshift-cloud-network-config-controller logs -p cloud-network-config-controller-c4867b748-vlq9h
W0927 05:48:18.678947       1 client_config.go:617] Neither --kubeconfig nor --master was specified.  Using the inClusterConfig.  This might not work.
I0927 05:48:18.680269       1 leaderelection.go:248] attempting to acquire leader lease openshift-cloud-network-config-controller/cloud-network-config-controller-lock...
I0927 05:48:26.754377       1 leaderelection.go:258] successfully acquired lease openshift-cloud-network-config-controller/cloud-network-config-controller-lock
I0927 05:48:26.755413       1 openstack.go:121] Custom CA bundle found at location '/kube-cloud-config/ca-bundle.pem' - reading certificate information
F0927 05:48:28.233519       1 main.go:101] Error building cloud provider client, err: Get "https://10.46.44.10:13000/": dial tcp 10.46.44.10:13000: connect: no route to host
goroutine 51 [running]:
k8s.io/klog/v2.stacks(0x1)
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/klog/v2/klog.go:860 +0x8a
k8s.io/klog/v2.(*loggingT).output(0x37696c0, 0x3, 0x0, 0xc000636000, 0x1, {0x2cbcbd8?, 0x1?}, 0xc000438400?, 0x0)
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/klog/v2/klog.go:825 +0x686
k8s.io/klog/v2.(*loggingT).printfDepth(0x37696c0, 0x237798a?, 0x0, {0x0, 0x0}, 0x7fff81041af7?, {0x23a20d0, 0x2d}, {0xc00052c050, 0x1, ...})
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/klog/v2/klog.go:630 +0x1f2
k8s.io/klog/v2.(*loggingT).printf(...)
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/klog/v2/klog.go:612
k8s.io/klog/v2.Fatalf(...)
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/klog/v2/klog.go:1516
main.main.func1({0x26e5638, 0xc00016c040})
        /go/src/github.com/openshift/cloud-network-config-controller/cmd/cloud-network-config-controller/main.go:101 +0x26d
created by k8s.io/client-go/tools/leaderelection.(*LeaderElector).Run
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/client-go/tools/leaderelection/leaderelection.go:211 +0x11bgoroutine 1 [select]:
k8s.io/apimachinery/pkg/util/wait.BackoffUntil(0xc00052bb60?, {0x26cee20, 0xc000581740}, 0x1, 0xc00052bb60)
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:167 +0x135
k8s.io/apimachinery/pkg/util/wait.JitterUntil(0xc00016c080?, 0x60db88400, 0x0, 0x20?, 0x7fea470ec108?)
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:133 +0x89
k8s.io/apimachinery/pkg/util/wait.Until(...)
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/apimachinery/pkg/util/wait/wait.go:90
k8s.io/client-go/tools/leaderelection.(*LeaderElector).renew(0xc0000a8120, {0x26e5638?, 0xc00016c040?})
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/client-go/tools/leaderelection/leaderelection.go:268 +0xd0
k8s.io/client-go/tools/leaderelection.(*LeaderElector).Run(0xc0000a8120, {0x26e5638, 0xc00025fcc0})
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/client-go/tools/leaderelection/leaderelection.go:212 +0x12f
k8s.io/client-go/tools/leaderelection.RunOrDie({0x26e5638, 0xc00025fcc0}, {{0x26e7430, 0xc00062afa0}, 0x1fe5d61a00, 0x18e9b26e00, 0x60db88400, {0xc00065e630, 0xc000634810, 0x0}, ...})
        /go/src/github.com/openshift/cloud-network-config-controller/vendor/k8s.io/client-go/tools/leaderelection/leaderelection.go:226 +0x94
main.main()
        /go/src/github.com/openshift/cloud-network-config-controller/cmd/cloud-network-config-controller/main.go:86 +0x450

Version-Release number of selected component (if applicable):

4.12.0-0.nightly-2022-09-26-050728

How reproducible:

Always

Steps to Reproduce:

1. Install OCP with proxy

Actual results:

Bootstrap failure and pod crashloop

Expected results:

Successful installation

Additional info:

Please find the must-gather here.

Description of problem:

The cluster-dns-operator does not reconcile the openshift-dns namespace, which has been exposed as an issue in 4.12 due to the requirement for the namespace to have pod-security labels.

If a cluster has been incrementally updated from a version less than or equal to 4.9, the openshift-dns namespace will most likely not contain the required pod-security labels since the namespace was statically created when the cluster was installed with old namespace configuration.

Version-Release number of selected component (if applicable):

4.12

How reproducible:

Always if cluster originally installed with v4.9 or less

Steps to Reproduce:

1. Install v4.9
2. Upgrade to v4.12 (incrementally if required for upgrade path)
3. openshift-dns namespace will be missing pod-security labels

Actual results:

"oc get ns openshift-dns -o yaml" will show missing pod-security labels: 

apiVersion: v1
kind: Namespace
metadata:
  annotations:
    openshift.io/node-selector: ""
    openshift.io/sa.scc.mcs: s0:c15,c0
    openshift.io/sa.scc.supplemental-groups: 1000210000/10000
    openshift.io/sa.scc.uid-range: 1000210000/10000
  creationTimestamp: "2020-05-21T19:36:15Z"
  labels:
    kubernetes.io/metadata.name: openshift-dns
    olm.operatorgroup.uid/3d42c0c1-01cd-4c55-bf88-864f041c7e7a: ""
    openshift.io/cluster-monitoring: "true"
    openshift.io/run-level: "0"
  name: openshift-dns
  resourceVersion: "3127555382"
  uid: 0fb4571e-952f-4bea-bc45-461beec54369
spec:
  finalizers:
  - kubernetes

Expected results:

pod-security labels should exist:
 
 labels:
    kubernetes.io/metadata.name: openshift-dns
    olm.operatorgroup.uid/3d42c0c1-01cd-4c55-bf88-864f041c7e7a: ""
    openshift.io/cluster-monitoring: "true"
    openshift.io/run-level: "0"
    pod-security.kubernetes.io/audit: privileged
    pod-security.kubernetes.io/enforce: privileged
    pod-security.kubernetes.io/warn: privileged

Additional info:

Issue found in CI during upgrade

https://coreos.slack.com/archives/C03G7REB4JV/p1663676443155839 

Description of problem:
If cluster install failed and no tag attached to vm, run ./openshift-install destroy cluster get stuck, details pls see openshift-install.log
...
time="2022-09-28T08:19:14-04:00" level=debug msg="Delete Folder"
time="2022-09-28T08:19:14-04:00" level=debug msg="Find attached Folder on tag"
time="2022-09-28T08:19:15-04:00" level=debug msg="Folder: Expected Folder sgao-rtf6v to be empty"
time="2022-09-28T08:19:25-04:00" level=debug msg="Power Off Virtual Machines"
time="2022-09-28T08:19:25-04:00" level=debug msg="Find attached VirtualMachine on tag"
time="2022-09-28T08:19:25-04:00" level=debug msg="Delete Virtual Machines"
time="2022-09-28T08:19:25-04:00" level=debug msg="Find attached VirtualMachine on tag"
time="2022-09-28T08:19:25-04:00" level=debug msg="Delete Folder"
time="2022-09-28T08:19:25-04:00" level=debug msg="Find attached Folder on tag"
time="2022-09-28T08:19:25-04:00" level=debug msg="Folder: Expected Folder sgao-rtf6v to be empty"
time="2022-09-28T08:19:35-04:00" level=debug msg="Power Off Virtual Machines"
time="2022-09-28T08:19:35-04:00" level=debug msg="Find attached VirtualMachine on tag"
time="2022-09-28T08:19:35-04:00" level=debug msg="Delete Virtual Machines"
time="2022-09-28T08:19:35-04:00" level=debug msg="Find attached VirtualMachine on tag"
time="2022-09-28T08:19:35-04:00" level=debug msg="Delete Folder"

Version-Release number of selected component (if applicable):
4.12.0-0.nightly-2022-09-25-071630

How reproducible:
always when cluster install failed and no tag attached to vm

Steps to Reproduce:
1. cluster install failed and no tag attached to vm
2. run ./openshift-install destroy cluster
3.

Actual results:
installer destroy get stuck

Expected results:
installer destroy should set timeout and be able to quit in such situation

Additional info:

Description of problem:

Currently we are not gathering Machine objects. We got nomination for a rule that will use this resource.

Version-Release number of selected component (if applicable):

 

How reproducible:

 

Steps to Reproduce:

1.
2.
3.

Actual results:

 

Expected results:

 

Additional info:

 

This is a clone of issue OCPBUGS-7102. The following is the description of the original issue:

Description of problem:

https://github.com/openshift/operator-framework-olm/blob/7ec6b948a148171bd336750fed98818890136429/staging/operator-lifecycle-manager/pkg/controller/operators/olm/plugins/downstream_csv_namespace_labeler_plugin_test.go#L309

has a dependency on creation of a next-version release branch.

 

Version-Release number of selected component (if applicable):

4.13

How reproducible:

 

Steps to Reproduce:

1. clone operator-framework/operator-framework-olm
2. make unit/olm
3. deal with a really bumpy first-time kubebuilder/envtest install experience
4. profit

 

 

Actual results:

error

Expected results:

pass

Additional info:

 

 

Description of problem:

Alert actions are not triggering modal from where storage cluster can be expanded.

Version-Release number of selected component (if applicable):

4.12

How reproducible:

1/1

Steps to Reproduce:

1. Fill up a storage cluster to 80%
2. Alert is seen in cluster dashboard.
3. Click the Add Capacity button

Actual results:

Modal is not launched.

Expected results:

Modal should be launched.

Additional info:

 

When multi-cluster is enabled, it possible to get in a situation where you can't cancel login. If you select a cluster you don't know the credentials for, console will remember the last cluster and repeatedly send you to the login page with no way to cancel or go back. If we decide to set the last cluster in the user's preferences, it might be possible to get stuck even if you clear cookies and localStorage.

There are similar issues logging into cluster that are hibernating. See attached video.

cc Scott Berens

Description of problem:

Customer is running machine learning (ML) tasks on OpenShift Container Platform, for which large models need to be embedded in the container image. When building a new container image with large container image layers (>=10GB) and pushing it to the internal image registry, this fails with the following error message:

error: build error: Failed to push image: writing blob: uploading layer to https://image-registry.openshift-image-registry.svc:5000/v2/example/example-image/blobs/uploads/b305b374-af79-4dce-afe0-afe6893b0ada?_state=[..]: blob upload invalid

In the image registry Pod we can see the following error message:

time="2023-01-30T14:12:22.315726147Z" level=error msg="upload resumed at wrong offest: 10485760000 != 10738341637" [..]
time="2023-01-30T14:12:22.338264863Z" level=error msg="response completed with error" err.code="blob upload invalid" err.message="blob upload invalid" [..]

Backend storage is AWS S3. We suspect that this could be the following upstream bug: https://github.com/distribution/distribution/issues/1698

Version-Release number of selected component (if applicable):

Customer encountered the issue on OCP 4.11.20. We reproduced the issue on OCP 4.11.21:

$  oc version
Client Version: 4.12.0
Kustomize Version: v4.5.7
Server Version: 4.11.21
Kubernetes Version: v1.24.6+5658434

How reproducible:

Always

Steps to Reproduce:

1. Install OpenShift Container Platform cluster 4.11.21 on AWS
2. Confirm registry storage is on AWS S3
3. Create a new build including a 10GB file using the following command: `printf "FROM registry.fedoraproject.org/fedora:37\nRUN dd if=/dev/urandom of=/bigfile bs=1M count=10240" | oc new-build -D -`
4. Wait for some time for the build to run

Actual results:

Pushing the new build fails with the following error message:

error: build error: Failed to push image: writing blob: uploading layer to https://image-registry.openshift-image-registry.svc:5000/v2/example/example-image/blobs/uploads/b305b374-af79-4dce-afe0-afe6893b0ada?_state=[..]: blob upload invalid

Expected results:

Push of large container image layers succeeds

Additional info:

Description of problem:

The SQL-based index image created by old opm failed to run in 4.12 even if added the `privileged` permission to the namespace.

 

MacBook-Pro:~ jianzhang$ oc get pods
NAME                   READY   STATUS             RESTARTS     AGE
jian-operators-4g5ln   0/1     CrashLoopBackOff   1 (2s ago)   11s
MacBook-Pro:~ jianzhang$ oc logs jian-operators-4g5ln 
Error: open /etc/nsswitch.conf: permission denied 

 

PS: the SQL-based index created by the new opm version doesn't have this issue.

 

opm version
Version: version.Version{OpmVersion:"e41024eb3", GitCommit:"e41024eb37c721bc43e8b3df226dd30c0589aee7", BuildDate:"2022-08-16T01:50:17Z", GoOs:"darwin", GoArch:"amd64"} 

 

 

Version-Release number of selected component (if applicable):

OCP 4.12

 

MacBook-Pro:~ jianzhang$ oc get clusterversion NAME      VERSION                              AVAILABLE   PROGRESSING   SINCE   STATUS version   4.12.0-0.nightly-2022-08-15-150248   True        False         3h25m   Cluster version is 4.12.0-0.nightly-2022-08-15-150248 

 

How reproducible:

always

Steps to Reproduce:
1. Deploy OCP 4.12

2, Deploy a CatalogSource in the `openshift-marketplace` namespace.

 

MacBook-Pro:~ jianzhang$ oc get ns openshift-marketplace -o yaml
apiVersion: v1
kind: Namespace
metadata:
  annotations:
    capability.openshift.io/name: marketplace
    include.release.openshift.io/ibm-cloud-managed: "true"
    include.release.openshift.io/self-managed-high-availability: "true"
    include.release.openshift.io/single-node-developer: "true"
    openshift.io/node-selector: ""
    openshift.io/sa.scc.mcs: s0:c16,c10
    openshift.io/sa.scc.supplemental-groups: 1000260000/10000
    openshift.io/sa.scc.uid-range: 1000260000/10000
    workload.openshift.io/allowed: management
  creationTimestamp: "2022-08-15T23:15:27Z"
  labels:
    kubernetes.io/metadata.name: openshift-marketplace
    olm.operatorgroup.uid/1b776321-2714-4c1f-95ba-2ddff49c4efe: ""
    openshift.io/cluster-monitoring: "true"
    pod-security.kubernetes.io/audit: baseline
    pod-security.kubernetes.io/enforce: baseline
    pod-security.kubernetes.io/warn: baseline
  name: openshift-marketplace
  ownerReferences:
  - apiVersion: config.openshift.io/v1
    kind: ClusterVersion
    name: version
    uid: cd81594b-4f6c-46d6-9369-75deef542ec8
  resourceVersion: "8617"
  uid: 1c35352e-3636-4f2b-a3b1-c84ebc6681e0
spec:
  finalizers:
  - kubernetes
status:
  phase: Active 

3, Check the CatalogSource pod status, crashed.

 

 


MacBook-Pro:~ jianzhang$ oc get catalogsource -n openshift-marketplace jian-operators -o yaml
apiVersion: operators.coreos.com/v1alpha1
kind: CatalogSource
metadata:
  creationTimestamp: "2022-08-16T02:24:20Z"
  generation: 1
  name: jian-operators
  namespace: openshift-marketplace
  resourceVersion: "106145"
  uid: 6a75ecc9-7b88-4411-bcf5-e34618f9b3cd
spec:
  displayName: Jian Operators
  image: quay.io/olmqe/etcd-index:v1
  priority: -100
  publisher: Jian
  sourceType: grpc
  updateStrategy:
    registryPoll:
      interval: 10m0s
status:
  connectionState:
    address: jian-operators.openshift-marketplace.svc:50051
    lastConnect: "2022-08-16T03:12:28Z"
    lastObservedState: TRANSIENT_FAILURE
  latestImageRegistryPoll: "2022-08-16T02:34:21Z"
  registryService:
    createdAt: "2022-08-16T02:24:20Z"
    port: "50051"
    protocol: grpc
    serviceName: jian-operators
    serviceNamespace: openshift-marketplace

MacBook-Pro:~ jianzhang$ oc get pods -n openshift-marketplace
NAME                                                              READY   STATUS             RESTARTS       AGE
28bb83ea022e9728d25570ab0adbe09a31d6a0a606917488e0ddb00f925mnfw   0/1     Completed          0              3h23m
7049ea48beb27a712fa506b76ad672be201ce5d3a6a93d627a0091e0fesvdlj   0/1     Completed          0              3h23m
certified-operators-ftt2n                                         1/1     Running            0              3h49m
community-operators-27dx9                                         1/1     Running            0              3h49m
jian-operators-5zq7d                                              0/1     CrashLoopBackOff   12 (71s ago)   38m
jian-operators-gpg4v                                              0/1     CrashLoopBackOff   14 (57s ago)   48m
marketplace-operator-9c8496b58-2jfmv                              1/1     Running            0              3h56m
qe-app-registry-rqrrv                                             1/1     Running            0              141m
redhat-marketplace-s6zrj                                          1/1     Running            0              3h49m
redhat-operators-54cqr                                            1/1     Running            0              3h49m

MacBook-Pro:~ jianzhang$ oc -n openshift-marketplace logs jian-operators-gpg4v 
Error: open /etc/nsswitch.conf: permission denied
Usage:
  opm registry serve [flags]


Flags:
  -d, --database string          relative path to sqlite db (default "bundles.db")
      --debug                    enable debug logging
  -h, --help                     help for serve
  -p, --port string              port number to serve on (default "50051")
      --skip-migrate             do  not attempt to migrate to the latest db revision when starting
  -t, --termination-log string   path to a container termination log file (default "/dev/termination-log")
      --timeout-seconds string   Timeout in seconds. This flag will be removed later. (default "infinite")


Global Flags:
      --skip-tls   skip TLS certificate verification for container image registries while pulling bundles or index 

 

4. Create a namespace with the `privileged` permission.

 

MacBook-Pro:~ jianzhang$ oc get ns debug -o yaml
apiVersion: v1
kind: Namespace
metadata:
  annotations:
    openshift.io/sa.scc.mcs: s0:c30,c10
    openshift.io/sa.scc.supplemental-groups: 1000890000/10000
    openshift.io/sa.scc.uid-range: 1000890000/10000
  creationTimestamp: "2022-08-16T02:46:41Z"
  labels:
    kubernetes.io/metadata.name: debug
    pod-security.kubernetes.io/audit: privileged
    pod-security.kubernetes.io/enforce: privileged
    pod-security.kubernetes.io/warn: privileged
    security.openshift.io/scc.podSecurityLabelSync: "false"
  name: debug
  resourceVersion: "95718"
  uid: bdf93839-6c42-4365-a65c-d9c0b9fe0504
spec:
  finalizers:
  - kubernetes
status:
  phase: Active 

 
5. Deploy a CatalogSource as above step 2. Still crashed.

 

 

MacBook-Pro:~ jianzhang$ oc get pods -n debug
NAME                   READY   STATUS             RESTARTS        AGE
jian-operators-4g5ln   0/1     CrashLoopBackOff   10 (114s ago)   28m
jian-operators-wn766   0/1     CrashLoopBackOff   8 (2m25s ago)   18m
MacBook-Pro:~ jianzhang$ oc -n debug logs jian-operators-wn766
Error: open /etc/nsswitch.conf: permission denied
Usage:
  opm registry serve [flags]


Flags:
  -d, --database string          relative path to sqlite db (default "bundles.db")
      --debug                    enable debug logging
  -h, --help                     help for serve
  -p, --port string              port number to serve on (default "50051")
      --skip-migrate             do  not attempt to migrate to the latest db revision when starting
  -t, --termination-log string   path to a container termination log file (default "/dev/termination-log")
      --timeout-seconds string   Timeout in seconds. This flag will be removed later. (default "infinite")


Global Flags:
      --skip-tls   skip TLS certificate verification for container image registries while pulling bundles or index 

 

 

Actual results:

The sql-based index image created by the old opm version cannot be run.

 

MacBook-Pro:~ jianzhang$ oc -n debug logs jian-operators-wn766 Error: open /etc/nsswitch.conf: permission denied 

 

 

Expected results:

The old SQL-based index image runs well. Or we have a workaround for it.

 

Additional info:

I changed another old sql-based image and have a try, get another permission issue.

 

MacBook-Pro:~ jianzhang$ oc get catalogsource
NAME             DISPLAY          TYPE   PUBLISHER   AGE
jian-operators   Jian Operators   grpc   Jian        37m
xia-operators    Xia Operators    grpc   Xia         101s
MacBook-Pro:~ jianzhang$ oc get catalogsource xia-operators -o yaml
apiVersion: operators.coreos.com/v1alpha1
kind: CatalogSource
metadata:
  creationTimestamp: "2022-08-16T03:22:38Z"
  generation: 1
  name: xia-operators
  namespace: debug
  resourceVersion: "110629"
  uid: 8be42e68-43be-4fd4-9b67-c74edc5e6353
spec:
  displayName: Xia Operators
  image: quay.io/olmqe/ditto-index:test-xzha-1
  priority: -100
  publisher: Xia
  sourceType: grpc
  updateStrategy:
    registryPoll:
      interval: 10m0s
status:
  connectionState:
    address: xia-operators.debug.svc:50051
    lastConnect: "2022-08-16T03:24:18Z"
    lastObservedState: CONNECTING
  registryService:
    createdAt: "2022-08-16T03:22:38Z"
    port: "50051"
    protocol: grpc
    serviceName: xia-operators
    serviceNamespace: debug

MacBook-Pro:~ jianzhang$ oc project
Using project "debug" on server "https://api.qe-daily-412-0816.ibmcloud.qe.devcluster.openshift.com:6443".
MacBook-Pro:~ jianzhang$ oc get pods
NAME                   READY   STATUS             RESTARTS         AGE
jian-operators-4g5ln   0/1     CrashLoopBackOff   11 (3m41s ago)   35m
jian-operators-wn766   0/1     CrashLoopBackOff   9 (4m13s ago)    25m
xia-operators-6wgjt    0/1     CrashLoopBackOff   1 (8s ago)       13s
MacBook-Pro:~ jianzhang$ oc logs xia-operators-6wgjt 
time="2022-08-16T03:22:43Z" level=warning msg="\x1b[1;33mDEPRECATION NOTICE:\nSqlite-based catalogs and their related subcommands are deprecated. Support for\nthem will be removed in a future release. Please migrate your catalog workflows\nto the new file-based catalog format.\x1b[0m"
Error: open ./db-609956243: permission denied
Usage:
  opm registry serve [flags]


Flags:
  -d, --database string          relative path to sqlite db (default "bundles.db")
      --debug                    enable debug logging

 

Even if that namespace is `privileged`.

MacBook-Pro:~ jianzhang$ oc get ns debug -o yaml
apiVersion: v1
kind: Namespace
metadata:
  annotations:
    openshift.io/sa.scc.mcs: s0:c30,c10
    openshift.io/sa.scc.supplemental-groups: 1000890000/10000
    openshift.io/sa.scc.uid-range: 1000890000/10000
  creationTimestamp: "2022-08-16T02:46:41Z"
  labels:
    kubernetes.io/metadata.name: debug
    pod-security.kubernetes.io/audit: privileged
    pod-security.kubernetes.io/enforce: privileged
    pod-security.kubernetes.io/warn: privileged
    security.openshift.io/scc.podSecurityLabelSync: "false"
  name: debug
  resourceVersion: "95718"
  uid: bdf93839-6c42-4365-a65c-d9c0b9fe0504
spec:
  finalizers:
  - kubernetes
status:
  phase: Active 

But, both of them work well in the 4.11 cluster. As follows,

 

MacBook-Pro:~ jianzhang$ oc get clusterversion
NAME      VERSION                              AVAILABLE   PROGRESSING   SINCE   STATUS
version   4.11.0-0.nightly-2022-08-15-152346   True        False         91m     Cluster version is 4.11.0-0.nightly-2022-08-15-152346
MacBook-Pro:~ jianzhang$ oc get catalogsource
NAME                  DISPLAY               TYPE   PUBLISHER   AGE
certified-operators   Certified Operators   grpc   Red Hat     106m
community-operators   Community Operators   grpc   Red Hat     106m
jian-operators        Jian Operators        grpc   Jian        48m
redhat-marketplace    Red Hat Marketplace   grpc   Red Hat     106m
redhat-operators      Red Hat Operators     grpc   Red Hat     106m
xia-operators         Xia Operators         grpc   Xia         6s
MacBook-Pro:~ jianzhang$ oc get pods
NAME                                   READY   STATUS    RESTARTS   AGE
certified-operators-fsjc8              1/1     Running   0          107m
community-operators-9qvzt              1/1     Running   0          107m
jian-operators-n5s8c                   1/1     Running   0          48m
marketplace-operator-7b777f747-22rwq   1/1     Running   0          109m
redhat-marketplace-2mgrl               1/1     Running   0          107m
redhat-operators-72q6z                 1/1     Running   0          107m
xia-operators-ngq86                    1/1     Running   0          23s
MacBook-Pro:~ jianzhang$ oc get catalogsource jian-operators -o yaml
apiVersion: operators.coreos.com/v1alpha1
kind: CatalogSource
metadata:
  creationTimestamp: "2022-08-16T02:39:52Z"
  generation: 1
  name: jian-operators
  namespace: openshift-marketplace
  resourceVersion: "58565"
  uid: 481a6fbe-00a5-4af5-86f7-d7413c658db3
spec:
  displayName: Jian Operators
  image: quay.io/olmqe/etcd-index:v1
  priority: -100
  publisher: Jian
  sourceType: grpc
  updateStrategy:
    registryPoll:
      interval: 10m0s
status:
  connectionState:
    address: jian-operators.openshift-marketplace.svc:50051
    lastConnect: "2022-08-16T02:44:45Z"
    lastObservedState: READY
  latestImageRegistryPoll: "2022-08-16T03:24:54Z"
  registryService:
    createdAt: "2022-08-16T02:39:52Z"
    port: "50051"
    protocol: grpc
    serviceName: jian-operators
    serviceNamespace: openshift-marketplace
MacBook-Pro:~ jianzhang$ oc get catalogsource xia-operators -o yaml
apiVersion: operators.coreos.com/v1alpha1
kind: CatalogSource
metadata:
  creationTimestamp: "2022-08-16T03:28:07Z"
  generation: 1
  name: xia-operators
  namespace: openshift-marketplace
  resourceVersion: "59886"
  uid: a270f665-ee0b-49a5-badb-d3394c7a9344
spec:
  displayName: Xia Operators
  image: quay.io/olmqe/ditto-index:test-xzha-1
  priority: -100
  publisher: Xia
  sourceType: grpc
  updateStrategy:
    registryPoll:
      interval: 10m0s
status:
  connectionState:
    address: xia-operators.openshift-marketplace.svc:50051
    lastConnect: "2022-08-16T03:28:27Z"
    lastObservedState: READY
  registryService:
    createdAt: "2022-08-16T03:28:07Z"
    port: "50051"
    protocol: grpc
    serviceName: xia-operators
    serviceNamespace: openshift-marketplace

MacBook-Pro:~ jianzhang$ oc get ns openshift-marketplace -o yaml
apiVersion: v1
kind: Namespace
metadata:
  annotations:
    capability.openshift.io/name: marketplace
    include.release.openshift.io/ibm-cloud-managed: "true"
    include.release.openshift.io/self-managed-high-availability: "true"
    include.release.openshift.io/single-node-developer: "true"
    openshift.io/node-selector: ""
    openshift.io/sa.scc.mcs: s0:c16,c5
    openshift.io/sa.scc.supplemental-groups: 1000250000/10000
    openshift.io/sa.scc.uid-range: 1000250000/10000
    workload.openshift.io/allowed: management
  creationTimestamp: "2022-08-16T01:38:10Z"
  labels:
    kubernetes.io/metadata.name: openshift-marketplace
    olm.operatorgroup.uid/24dae571-2843-445b-b09f-5a4631cb25ba: ""
    openshift.io/cluster-monitoring: "true"
    pod-security.kubernetes.io/audit: baseline
    pod-security.kubernetes.io/warn: baseline
  name: openshift-marketplace
  ownerReferences:
  - apiVersion: config.openshift.io/v1
    kind: ClusterVersion
    name: version
    uid: 470d072e-37d9-4203-bc5a-c675800d593c
  resourceVersion: "6981"
  uid: 554a5ceb-8343-46f4-ae69-af36ee45d7fe
spec:
  finalizers:
  - kubernetes
status:
  phase: Active 

Description of problem:

"Failed to open directory, disabling udev device properties" in node-exporter logs

$ for i in $(oc -n openshift-monitoring get pod | grep node-exporter | awk '{print $1}'); do echo $i; oc -n openshift-monitoring logs -c node-exporter $i | grep "Failed to open directory, disabling udev device properties"; echo -e "\n"; done
node-exporter-4279b
ts=2022-10-17T01:16:05.833Z caller=diskstats_linux.go:264 level=error collector=diskstats msg="Failed to open directory, disabling udev device properties" path=/run/udev/data

node-exporter-9tq64
ts=2022-10-17T01:16:04.642Z caller=diskstats_linux.go:264 level=error collector=diskstats msg="Failed to open directory, disabling udev device properties" path=/run/udev/data

node-exporter-dwtwh
ts=2022-10-17T01:16:04.936Z caller=diskstats_linux.go:264 level=error collector=diskstats msg="Failed to open directory, disabling udev device properties" path=/run/udev/data

node-exporter-nrznc
ts=2022-10-17T01:16:05.601Z caller=diskstats_linux.go:264 level=error collector=diskstats msg="Failed to open directory, disabling udev device properties" path=/run/udev/data

node-exporter-q87s4
ts=2022-10-17T01:16:05.228Z caller=diskstats_linux.go:264 level=error collector=diskstats msg="Failed to open directory, disabling udev device properties" path=/run/udev/data

node-exporter-twtxj
ts=2022-10-17T01:16:05.249Z caller=diskstats_linux.go:264 level=error collector=diskstats msg="Failed to open directory, disabling udev device properties" path=/run/udev/data

debug on node, /run/udev/data is readable

# oc debug node/ip-10-0-138-107.us-east-2.compute.internal
Temporary namespace openshift-debug-dhvqv is created for debugging node...
Starting pod/ip-10-0-138-107us-east-2computeinternal-debug ...
To use host binaries, run `chroot /host`
Pod IP: 10.0.138.107
If you don't see a command prompt, try pressing enter.
sh-4.4# chroot /host
sh-4.4# ls -l /run/udev/
total 0
srw-------.  1 root root    0 Oct 17 01:04 control
drwxr-xr-x.  2 root root 3780 Oct 17 01:26 data
drwxr-xr-x. 40 root root  800 Oct 17 01:04 links
drwxr-xr-x.  3 root root   60 Oct 17 01:04 static_node-tags
drwxr-xr-x.  5 root root  100 Oct 17 01:04 tags
drwxr-xr-x.  2 root root  140 Oct 17 01:04 watch
sh-4.4# ls -l /run/udev/data
total 304
-rw-r--r--. 1 root root   55 Oct 17 01:04 +acpi:AMZN0000:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXCPU:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXCPU:01
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXCPU:02
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXCPU:03
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXPWRBN:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXSLPBN:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXSYBUS:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXSYBUS:01
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:LNXSYSTM:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0103:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0303:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0400:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0501:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0A03:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0B00:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0C0F:00
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0C0F:01
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0C0F:02
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0C0F:03
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0C0F:04
-rw-r--r--. 1 root root   57 Oct 17 01:04 +acpi:PNP0F13:00
-rw-r--r--. 1 root root  142 Oct 17 01:04 +input:input0
-rw-r--r--. 1 root root  142 Oct 17 01:04 +input:input1
-rw-r--r--. 1 root root  218 Oct 17 01:04 +input:input2
-rw-r--r--. 1 root root  198 Oct 17 01:04 +input:input4
-rw-r--r--. 1 root root  143 Oct 17 01:04 +input:input5
-rw-r--r--. 1 root root   60 Oct 17 01:04 +module:configfs
-rw-r--r--. 1 root root   66 Oct 17 01:04 +module:fuse
-rw-r--r--. 1 root root  188 Oct 17 01:04 +pci:0000:00:00.0
-rw-r--r--. 1 root root  195 Oct 17 01:04 +pci:0000:00:01.0
-rw-r--r--. 1 root root  213 Oct 17 01:04 +pci:0000:00:01.3
-rw-r--r--. 1 root root  207 Oct 17 01:04 +pci:0000:00:03.0
-rw-r--r--. 1 root root  259 Oct 17 01:04 +pci:0000:00:04.0
-rw-r--r--. 1 root root  208 Oct 17 01:04 +pci:0000:00:05.0
-rw-r--r--. 1 root root   55 Oct 17 01:04 +platform:AMZN0000:00
-rw-r--r--. 1 root root  825 Oct 17 01:04 b259:0
-rw-r--r--. 1 root root 1357 Oct 17 01:04 b259:1
-rw-r--r--. 1 root root 1568 Oct 17 01:04 b259:2
-rw-r--r--. 1 root root 1619 Oct 17 01:04 b259:3
-rw-r--r--. 1 root root 1602 Oct 17 01:04 b259:4
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:144
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:183
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:227
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:228
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:229
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:231
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:235
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:236
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:62
-rw-r--r--. 1 root root    0 Oct 17 01:04 c10:63
-rw-r--r--. 1 root root  193 Oct 17 01:04 c13:32
-rw-r--r--. 1 root root    0 Oct 17 01:04 c13:63
-rw-r--r--. 1 root root  113 Oct 17 01:04 c13:64
-rw-r--r--. 1 root root  113 Oct 17 01:04 c13:65
-rw-r--r--. 1 root root  232 Oct 17 01:04 c13:66
-rw-r--r--. 1 root root  199 Oct 17 01:04 c13:67
-rw-r--r--. 1 root root  143 Oct 17 01:04 c13:68
-rw-r--r--. 1 root root    0 Oct 17 01:04 c162:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:1
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:11
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:3
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:4
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:5
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:7
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:8
-rw-r--r--. 1 root root    0 Oct 17 01:04 c1:9
-rw-r--r--. 1 root root    0 Oct 17 01:04 c202:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c202:1
-rw-r--r--. 1 root root    0 Oct 17 01:04 c202:2
-rw-r--r--. 1 root root    0 Oct 17 01:04 c202:3
-rw-r--r--. 1 root root    0 Oct 17 01:04 c203:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c203:1
-rw-r--r--. 1 root root    0 Oct 17 01:04 c203:2
-rw-r--r--. 1 root root    0 Oct 17 01:04 c203:3
-rw-r--r--. 1 root root    0 Oct 17 01:04 c241:0
-rw-r--r--. 1 root root  259 Oct 17 01:04 c242:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c246:0
-rw-r--r--. 1 root root   23 Oct 17 01:04 c251:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:1
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:10
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:11
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:12
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:13
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:14
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:15
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:16
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:17
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:18
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:19
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:2
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:20
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:21
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:22
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:23
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:24
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:25
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:26
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:27
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:28
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:29
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:3
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:30
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:31
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:32
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:33
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:34
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:35
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:36
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:37
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:38
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:39
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:4
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:40
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:41
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:42
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:43
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:44
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:45
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:46
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:47
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:48
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:49
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:5
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:50
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:51
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:52
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:53
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:54
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:55
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:56
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:57
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:58
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:59
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:6
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:60
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:61
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:62
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:63
-rw-r--r--. 1 root root   20 Oct 17 01:04 c4:64
-rw-r--r--. 1 root root   20 Oct 17 01:04 c4:65
-rw-r--r--. 1 root root   20 Oct 17 01:04 c4:66
-rw-r--r--. 1 root root   20 Oct 17 01:04 c4:67
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:7
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:8
-rw-r--r--. 1 root root    0 Oct 17 01:04 c4:9
-rw-r--r--. 1 root root    0 Oct 17 01:04 c5:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c5:1
-rw-r--r--. 1 root root    0 Oct 17 01:04 c5:2
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:0
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:1
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:128
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:129
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:130
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:131
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:132
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:133
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:134
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:2
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:3
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:4
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:5
-rw-r--r--. 1 root root    0 Oct 17 01:04 c7:6
-rw-r--r--. 1 root root   87 Oct 17 01:04 n1
-rw-r--r--. 1 root root  360 Oct 17 01:06 n10
-rw-r--r--. 1 root root  360 Oct 17 01:06 n11
-rw-r--r--. 1 root root  360 Oct 17 01:06 n13
-rw-r--r--. 1 root root  360 Oct 17 01:07 n14
-rw-r--r--. 1 root root  595 Oct 17 01:04 n2
-rw-r--r--. 1 root root  360 Oct 17 01:09 n25
-rw-r--r--. 1 root root  360 Oct 17 01:10 n29
-rw-r--r--. 1 root root  195 Oct 17 01:04 n3
-rw-r--r--. 1 root root  360 Oct 17 01:10 n30
-rw-r--r--. 1 root root  360 Oct 17 01:11 n31
-rw-r--r--. 1 root root  360 Oct 17 01:14 n35
-rw-r--r--. 1 root root  360 Oct 17 01:14 n37
-rw-r--r--. 1 root root  360 Oct 17 01:14 n39
-rw-r--r--. 1 root root  188 Oct 17 01:04 n4
-rw-r--r--. 1 root root  360 Oct 17 01:15 n41
-rw-r--r--. 1 root root  193 Oct 17 01:04 n5
-rw-r--r--. 1 root root  360 Oct 17 01:18 n50
-rw-r--r--. 1 root root  362 Oct 17 01:26 n54
-rw-r--r--. 1 root root  189 Oct 17 01:04 n6
-rw-r--r--. 1 root root  357 Oct 17 01:05 n7
-rw-r--r--. 1 root root  357 Oct 17 01:05 n8
-rw-r--r--. 1 root root  359 Oct 17 01:05 n9 

Version-Release number of selected component (if applicable):

4.12.0-0.nightly-2022-10-15-094115
node-exporter version=1.4.0

How reproducible:

always

Steps to Reproduce:

1. check node-exporter logs
2.
3.

Actual results:

"Failed to open directory, disabling udev device properties" in node-exporter logs

Expected results:

no error logs

Additional info:

no functional affection for the cluster
code:
https://github.com/prometheus/node_exporter/blob/release-1.4/collector/diskstats_linux.go#L262-L270

Description of problem:

- After upgrading to OCP 4.10.41, thanos-ruler-user-workload-1 in the openshift-user-workload-monitoring namespace is consistently being created and deleted.
- We had to scale down the Prometheus operator multiple times so that the upgrade is considered as successful.
- This fix is temporary. After some time it appears again and Prometheus operator needs to be scaled down and up again.
- The issue is present on all clusters in this customer environment which are upgraded to 4.10.41.

Version-Release number of selected component (if applicable):

 

How reproducible:

N/A, I wasn't able to reproduce the issue.

Steps to Reproduce:

 

Actual results:

 

Expected results:

 

Additional info:

 

Assisted installations default to setting platform: baremetal. Using the ReST API, it is possible to select vsphere (or ovirt) as the platform type. In every case, the actual platform data is filled in by assisted-service, and cannot be specified by the user.

The ClusterDeployment resource (from Hive) contains a Platform field. We could look for a platform specified in this field and set that platform when creating the cluster in the create-cluster-and-infraenv service. If ZTP were ever to support other deployment methods, this would probably be a good choice for that also.

We should probably warn the user if they attempt to put any data inside the platform settings, as this will be ignored. This shouldn't be an error, though, as it would prevent users from using existing install configs. Perhaps it should be an error if they specify a platform we don't support.

 

Note: https://issues.redhat.com/browse/AGENT-284?focusedCommentId=21019997&page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel#comment-21019997 

[Pawan]: We can simply use the PlatformType from ACI and then no assisted service client changes are required. We will throw an error if the user provides an unsupported platformType ( aws, gcp, etc)

 

Ignoring the unwanted Platform settings from install-config.yaml to be handled in https://issues.redhat.com/browse/AGENT-348

Description of problem:

When you migrate a HostedCluster, the AWSEndpointService conflicts from the old MGMT Server with the new MGMT Server. The AWSPrivateLink_Controller does not have any validation when this happens. This is needed to make the Disaster Recovery HC Migration works. So the issue will raise up when the nodes of the HostedCluster cannot join the new Management cluster because the AWSEndpointServiceName is still pointing to the old one.

Version-Release number of selected component (if applicable):

4.12
4.13
4.14

How reproducible:

Follow the migration procedure from upstream documentation and the nodes in the destination HostedCluster will keep in NotReady state.

Steps to Reproduce:

1. Setup a management cluster with the 4.12-13-14/main version of the HyperShift operator.
2. Run the in-place node DR Migrate E2E test from this PR https://github.com/openshift/hypershift/pull/2138:
bin/test-e2e \
  -test.v \
  -test.timeout=2h10m \
  -test.run=TestInPlaceUpgradeNodePool \
  --e2e.aws-credentials-file=$HOME/.aws/credentials \
  --e2e.aws-region=us-west-1 \
  --e2e.aws-zones=us-west-1a \
  --e2e.pull-secret-file=$HOME/.pull-secret \
  --e2e.base-domain=www.mydomain.com \
  --e2e.latest-release-image="registry.ci.openshift.org/ocp/release:4.13.0-0.nightly-2023-03-17-063546" \
  --e2e.previous-release-image="registry.ci.openshift.org/ocp/release:4.13.0-0.nightly-2023-03-17-063546" \
  --e2e.skip-api-budget \
  --e2e.aws-endpoint-access=PublicAndPrivate

Actual results:

The nodes stay in NotReady state

Expected results:

The nodes should join the migrated HostedCluster

Additional info:

 

Description of problem:

Image registry pods panic while deploying OCP in ap-south-2 AWS region

Version-Release number of selected component (if applicable):

4.11.2

How reproducible:

Deploy OCP in AWS ap-south-2 region

Steps to Reproduce:

Deploy OCP in AWS ap-south-2 region 

Actual results:

panic: Invalid region provided: ap-south-2

Expected results:

Image registry pods should come up with no errors

Additional info:

 

 

 

 

 

Description of problem:


Version-Release number of selected component (if applicable):


How reproducible:


Steps to Reproduce:

1.
2.
3.

Actual results:


Expected results:


Additional info:


Description of problem:

OCPBUGS-3499 and OCPBUGS-3501 both require a more recent version of openshift/library-go containing the shared validation and host-assignment logic.

Searching recent 4.12 CI, there are a number of failures in the clusteroperator/machine-config should not change condition/Available test case:

$ w3m -dump -cols 200 'https://search.ci.openshift.org/?search=clusteroperator%2Fmachine-config+should+not+change+condition%2FAvailable&maxAge=48h&type=junit' | grep '4[.]12.*failures match' | sort
periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade (all) - 129 runs, 53% failed, 6% of failures match = 3% impact
periodic-ci-openshift-release-master-ci-4.12-e2e-aws-sdn-techpreview-serial (all) - 6 runs, 50% failed, 67% of failures match = 33% impact
periodic-ci-openshift-release-master-ci-4.12-e2e-azure-ovn-upgrade (all) - 60 runs, 50% failed, 3% of failures match = 2% impact
periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-aws-ovn-upgrade (all) - 129 runs, 56% failed, 8% of failures match = 5% impact
periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-azure-sdn-upgrade (all) - 129 runs, 69% failed, 12% of failures match = 9% impact
periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-gcp-ovn-rt-upgrade (all) - 8 runs, 38% failed, 67% of failures match = 25% impact
periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-gcp-ovn-upgrade (all) - 60 runs, 57% failed, 6% of failures match = 3% impact
periodic-ci-openshift-release-master-ci-4.12-upgrade-from-stable-4.11-e2e-gcp-sdn-upgrade (all) - 12 runs, 42% failed, 20% of failures match = 8% impact
periodic-ci-openshift-release-master-nightly-4.12-e2e-aws-sdn-upgrade (all) - 60 runs, 40% failed, 4% of failures match = 2% impact
periodic-ci-openshift-release-master-nightly-4.12-e2e-metal-ipi-sdn-serial-virtualmedia (all) - 6 runs, 100% failed, 17% of failures match = 17% impact
periodic-ci-openshift-release-master-nightly-4.12-e2e-metal-ipi-sdn-upgrade (all) - 6 runs, 67% failed, 25% of failures match = 17% impact
periodic-ci-openshift-release-master-nightly-4.12-e2e-metal-ipi-serial-ovn-dualstack (all) - 6 runs, 67% failed, 25% of failures match = 17% impact
periodic-ci-openshift-release-master-nightly-4.12-e2e-vsphere-ovn-techpreview-serial (all) - 9 runs, 56% failed, 20% of failures match = 11% impact
periodic-ci-openshift-release-master-nightly-4.12-upgrade-from-stable-4.11-e2e-metal-ipi-upgrade (all) - 6 runs, 100% failed, 17% of failures match = 17% impact
periodic-ci-openshift-release-master-nightly-4.12-upgrade-from-stable-4.11-e2e-metal-ipi-upgrade-ovn-ipv6 (all) - 6 runs, 83% failed, 20% of failures match = 17% impact
periodic-ci-openshift-release-master-okd-4.12-e2e-vsphere (all) - 25 runs, 100% failed, 4% of failures match = 4% impact
release-openshift-ocp-installer-e2e-gcp-serial-4.12 (all) - 6 runs, 83% failed, 20% of failures match = 17% impact

Doesn't seem like reason is getting set?

$ curl -s 'https://search.ci.openshift.org/search?name=periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade&search=clusteroperator%2Fmachine-config+should+not+change+condition%2FAvailable&maxAge=48h&type=junit&context=15' | jq -r 'to_entries[].value | to_entries[].value[].context[]' | grep 'clusteroperator/machine-config condition/Available status/False reason'
Aug 31 01:13:56.724 - 698s  E clusteroperator/machine-config condition/Available status/False reason/Cluster not available for [{operator 4.12.0-0.ci-2022-08-30-194744}]
Aug 31 09:09:15.460 - 1078s E clusteroperator/machine-config condition/Available status/False reason/Cluster not available for [{operator 4.12.0-0.ci-2022-08-30-194744}]
Sep 01 03:31:24.808 - 1131s E clusteroperator/machine-config condition/Available status/False reason/Cluster not available for [{operator 4.12.0-0.ci-2022-08-31-111359}]
Sep 01 07:15:58.029 - 1085s E clusteroperator/machine-config condition/Available status/False reason/Cluster not available for [{operator 4.12.0-0.ci-2022-08-31-111359}]

Example runs in the job I've randomly selected to drill into:

$ curl -s 'https://search.ci.openshift.org/search?name=periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade&search=clusteroperator%2Fmachine-config+should+not+change+condition%2FAvailable&maxAge=48h&type=junit' | jq -r 'keys[]'
https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade/1564757706458271744
https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade/1564879945233076224
https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade/1565158084484009984
https://prow.ci.openshift.org/view/gs/origin-ci-test/logs/periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade/1565212566194491392

Drilling into that last run, the Available=False was the whole pool-update phase:

And details from the origin's monitor:

$ curl -s https://gcsweb-ci.apps.ci.l2s4.p1.openshiftapps.com/gcs/origin-ci-test/logs/periodic-ci-openshift-release-master-ci-4.12-e2e-aws-ovn-upgrade/1565212566194491392/artifacts/e2e-aws-ovn-upgrade/openshift-e2e-test/build-log.txt | grep clusteroperator/machine-config
Sep 01 07:15:57.629 E clusteroperator/machine-config condition/Degraded status/True reason/RenderConfigFailed changed: Failed to resync 4.12.0-0.ci-2022-08-31-111359 because: refusing to read osImageURL version "4.12.0-0.ci-2022-09-01-053740", operator version "4.12.0-0.ci-2022-08-31-111359"
Sep 01 07:15:57.629 - 49s   E clusteroperator/machine-config condition/Degraded status/True reason/Failed to resync 4.12.0-0.ci-2022-08-31-111359 because: refusing to read osImageURL version "4.12.0-0.ci-2022-09-01-053740", operator version "4.12.0-0.ci-2022-08-31-111359"
Sep 01 07:15:58.029 E clusteroperator/machine-config condition/Available status/False changed: Cluster not available for [{operator 4.12.0-0.ci-2022-08-31-111359}]
Sep 01 07:15:58.029 - 1085s E clusteroperator/machine-config condition/Available status/False reason/Cluster not available for [{operator 4.12.0-0.ci-2022-08-31-111359}]
Sep 01 07:16:47.000 I /machine-config reason/OperatorVersionChanged clusteroperator/machine-config-operator started a version change from [{operator 4.12.0-0.ci-2022-08-31-111359}] to [{operator 4.12.0-0.ci-2022-09-01-053740}]
Sep 01 07:16:47.377 W clusteroperator/machine-config condition/Progressing status/True changed: Working towards 4.12.0-0.ci-2022-09-01-053740
Sep 01 07:16:47.377 - 1037s W clusteroperator/machine-config condition/Progressing status/True reason/Working towards 4.12.0-0.ci-2022-09-01-053740
Sep 01 07:16:47.405 W clusteroperator/machine-config condition/Degraded status/False changed: 
Sep 01 07:18:02.614 W clusteroperator/machine-config condition/Upgradeable status/False reason/PoolUpdating changed: One or more machine config pools are updating, please see `oc get mcp` for further details
Sep 01 07:34:03.000 I /machine-config reason/OperatorVersionChanged clusteroperator/machine-config-operator version changed from [{operator 4.12.0-0.ci-2022-08-31-111359}] to [{operator 4.12.0-0.ci-2022-09-01-053740}]
Sep 01 07:34:03.699 W clusteroperator/machine-config condition/Available status/True changed: Cluster has deployed [{operator 4.12.0-0.ci-2022-08-31-111359}]
Sep 01 07:34:03.715 W clusteroperator/machine-config condition/Upgradeable status/True changed: 
Sep 01 07:34:04.065 I clusteroperator/machine-config versions: operator 4.12.0-0.ci-2022-08-31-111359 -> 4.12.0-0.ci-2022-09-01-053740
Sep 01 07:34:04.663 W clusteroperator/machine-config condition/Progressing status/False changed: Cluster version is 4.12.0-0.ci-2022-09-01-053740
[bz-Machine Config Operator] clusteroperator/machine-config should not change condition/Available
[bz-Machine Config Operator] clusteroperator/machine-config should not change condition/Degraded

No idea if whatever was happening there is the same thing that was happening in other runs, and I haven't checked 4.11 and earlier either. The test-case is non-fatal, so it doesn't break CI, but it can cause noise like ClusterOperatorDown if it continues for 10 or more minutes. Whic PromeCIeus says actually fired in this run, although apparently the origin monitors didn't notice to complain:

So parallel asks (and I'm happy to shard into separate bugs, if that's helpful):

  • Set a reason when you go Available=False, so Telemetry can collect information to aggregate and hunt for frequent reasons to prioritize improvements.
  • Figure out at least one reason why we're going Available=False in apparently healthy CI runs. If we find and fix one reason, we can circle back later to see if there are more that remain unfixed.

Description of problem:

We got a feedback from the support team that it is confusing to see switch in the Notifications column for the Alerting rule which have no alerts associated to it as user can not silence the Alerting rule. 

Version-Release number of selected component (if applicable):

 

How reproducible:

 

Steps to Reproduce:

1. oc apply -f https://gist.githubusercontent.com/vikram-raj/727629797eb9d9bfcfa2721cae2ade86/raw/7c2305e14115a1a4f4f88ebb74cdad32cbec4132/Alerting%2520rule%2520without%2520alert 
2. navigate to the Developer perspective Observe -> Alerts
3. Try to silence the VersionAlert alerting rule, nothing will happen 

Actual results:

Silence the alerting rule using the switch will do nothing

Expected results:

No switch for silence the alerting rule should be visible if no alerts are associated to the alerting rule.

Additional info:

 

This is a clone of issue OCPBUGS-4181. The following is the description of the original issue:

Description of problem:

After configuring a webhook receiver in alertmanager to send alerts to an external tool, a customer noticed that when receiving alerts they have as source "https:///<console-url>" (notice the 3 /).

Version-Release number of selected component (if applicable):

OCP 4.10

How reproducible:

Always

Steps to Reproduce:

1.
2.
3.

Actual results:

https:///<console-url>

Expected results:

https://<console-url>

Additional info:

After investigating I discovered that the problem might be in the CMO code:

→ oc get Alertmanager main -o yaml | grep externalUrl
  externalUrl: https:/console-openshift-console.apps.jakumar-2022-11-27-224014.devcluster.openshift.com/monitoring
→ oc get Prometheus k8s -o yaml | grep externalUrl
  externalUrl: https:/console-openshift-console.apps.jakumar-2022-11-27-224014.devcluster.openshift.com/monitoring

Description of problem:

SYN packets for new tcp connections from inside the cluster to an external destination are dropped at random. After few seconds (i.e. few retries), they eventually succeed and no more packet drop happens. Hence, this is perceived as too long TCP connection establishment delay.

Version-Release number of selected component (if applicable):

4.10.0

How reproducible:

Frequently at a concrete cluster. Other clusters with apparently similar configuration don't show the issue.

Steps to Reproduce:

1. Establish TCP connection from pod to external destination.
2.
3.

Actual results:

SYN packets dropped, long TCP establishment time, leading to timeouts.

Expected results:

No drops

Additional info:

This becomes especially harmful because it impacts communication from openshift-apiserver (not to be confused with kube-apiserver) and etcd, because the former is inside the SDN and etcd isn't.

More details will follow in comments.